Patent Publication Number: US-10327485-B2

Title: Flexible supported glove structures

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
     This Application is a Divisional of U.S. application Ser. No. 13/440,943, filed Apr. 5, 2012, which is incorporated by reference in its entirety. 
    
    
     FIELD OF THE INVENTION 
     The present invention relates to the field of gloves structures. In some examples, aspects of the present invention pertain to athletic gloves that are very flexible while still providing excellent support. 
     BACKGROUND 
     When participating in athletic activities (golfing, batting, etc.) and/or doing work (e.g., gardening, shoveling, sweeping, digging, etc.), people often wish to wear gloves to protect the hands and/or provide improved grip on the implement they are holding. Gloves for these activities, e.g., for use in golf, baseball, softball, football, weightlifting, and other sports and/or for use as work gloves, however, can be stiff and/or binding. This can make the gloves uncomfortable to wear and/or inhibit freedom of movement. Further, gloves that are too stiff may fail to fit properly, thereby failing to provide adequate support. 
     Additionally, some gloves are provided with one or more lines of stitching running straight across the back near or over the knuckle region. Examples include zig-zag elastic stitch lines that may cause bunching in the knuckle region. These stitch lines may be uncomfortable when the glove is stretched across the knuckle region, e.g., when the hands are flexed or clenched such as for gripping an implement. 
     Failure to wear properly fitted gloves can compromise grips, cause the hands to tire more easily, and risk irritating or injuring the skin. Accordingly, there is a need in the art for flexible gloves having excellent support while also providing adequate freedom of movement, breathability and comfort. 
     SUMMARY OF THE INVENTION 
     This Summary is provided to introduce some general concepts relating to this invention in a simplified form that are further described below in the Detailed Description. This Summary is not intended to identify key features or essential features of the invention. 
     Glove structures in accordance with at least some examples of this invention may include, for example, a front portion and a back portion. According to certain aspects, the back portion may include a back main section located opposite the front main section and a knuckle support assembly attached to the back main section. The knuckle support assembly may include a knuckle support member having at least one cutout coincident with at least one metacarpophalangeal joint and a flexible member extending across the at least one cutout. The knuckle support member may have a greater flexural stiffness than the back main section. The material of the knuckle support member may be more elastically stretchable than the material of the back main section. The material of the flexible member may be more elastically stretchable than the material of the back main section and/or the knuckle support member. Further, the knuckle support member and the flexible member may be molded or fuse bonded to one another to form a knuckle support assembly. 
     Methods for making such glove structures are also provided. According to certain aspects a method for forming a glove structure may include providing a knuckle support member having at least one cutout, providing a flexible member, wherein a material of the flexible member has a greater elastic stretchability than a material of the knuckle support member, and forming a knuckle support assembly by attaching the flexible member to the knuckle support member, wherein the flexible member extends across the at least one cutout. The method may also include attaching the knuckle support assembly to a back portion of the glove structure and aligning a first cutout of the at least one cutout with at least one metacarpophalangeal joint (e.g., at a location on the glove that will lie adjacent at least one metacarpophalangeal joint when a hand is inserted inside the glove). 
     According to some aspects, a method may include forming the knuckle support assembly by molding the knuckle support member onto the flexible member. Alternatively, the method may include forming the knuckle support assembly by fuse bonding at least portions of the flexible member to at least portions of the knuckle support member. According to other aspects, the method may include forming a wave-like seam to attach the knuckle support assembly to the back main section of the back portion. 
     According to further aspects, the method may include aligning a cutout with a location on the glove such that the frame of the cutout will lie adjacent the metacarpophalangeal joint of an index finger, aligning a cutout with a location on the glove such that the frame of the cutout will lie adjacent a proximal interphalangeal joint, and/or aligning a plurality of cutouts with locations on the glove such that the frames of the cutouts will lie adjacent the metacarpophalangeal joints of an index finger, a middle finger, a ring finger and/or a little finger. 
     According to even other aspects, a glove structure having a front portion including a front main section for covering the palm of a hand, a back portion engaged with the front portion for covering a back of the hand, and a closure system attached to at least one of the front portion and the back portion may be provided. The closure system may include a flap having an attached end, a free end, at least a first component of a fastening system positioned between the attached end and the free end, and a free end tab extending beyond the first component of the fastening system. The free end tab may include at least one tactile element, which may be a raised protrusion, for facilitating a user&#39;s grip. The fastening system may be a hook-and-loop fastener. The flap and the tactile element may be formed of silicone rubber. 
     The glove structure may further include a knuckle support assembly located at least partially in a metacarpophalangeal joint region of the back portion. The knuckle support assembly may include a knuckle support member having at least one cutout coincident with at least one metacarpophalangeal joint and a flexible member extending across the at least one cutout. The knuckle support member may have a greater flexural stiffness than the back portion. Further, the material of the knuckle support member may have a greater elastic stretchability than the material of the back portion. Similarly, the material of the flexible member may have a greater elastic stretchability than the material of the back portion. 
     Aspects of this invention relate to glove structures, and particularly to work or athletic gloves that are very lightweight and flexible while still providing adequate support and structure for their intended use. More specific features and aspects of this invention will be described in detail below. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       The foregoing Summary of the Invention, as well as the following Detailed Description of the Invention, will be better understood when considered in conjunction with the accompanying drawings in which like reference numerals refer to the same or similar elements in all of the various views in which that reference number appears. 
         FIGS. 1A and 1B  illustrate front and back views of one example glove structure in accordance with this invention; 
         FIGS. 2A and 2B  illustrate front and back views of another example glove structure in accordance with this invention; 
         FIG. 3  illustrates a back view of yet another example glove structure in accordance with this invention; 
         FIG. 4  illustrates a back view of still another example glove structure in accordance with this invention; and 
         FIG. 5  illustrates another back view of an example glove structure in accordance with this invention. 
         FIG. 6  illustrates a partial cross-sectional view of the example glove structure of  FIG. 2B  in accordance with this invention. 
     
    
    
     The reader is advised that the attached drawings depict various example features and combinations of features of glove structures in accordance with examples of this invention. These drawings are not necessary drawn to scale. 
     DETAILED DESCRIPTION OF THE INVENTION 
     In the following description of various examples of gloves according to the present invention, reference is made to the accompanying drawings, which form a part hereof, and in which are shown by way of illustration various example athletic glove structures in which aspects of the invention may be included. It is to be understood that other glove structures for other uses may be provided and that structural and functional modifications may be made from the specifically described structures and methods without departing from the scope of the present invention. 
     Referring to the figures and following discussion, various gloves structures and features thereof in accordance with the present invention are disclosed. The gloves depicted and discussed are athletic gloves (and particularly golf gloves), and the concepts disclosed with respect to various aspects of these gloves may be applied to a wide range of athletic glove structures, including, but not limited to: golf gloves, batting gloves, football gloves, weightlifting gloves, and gloves for other sports. In addition, at least some concepts and aspects of the present invention may be applied to a wide range of non-athletic gloves, including gardening gloves, yard work gloves, cleaning gloves, work gloves, and gloves for other activities in which lightweight construction, support and breathability are desired while not sacrificing grip or protection of the hands. Even further, the concepts disclosed herein may be applied to other hand-receiving structures, for example, partial gloves, protective hand sheaths and/or manual and remote controllers. Accordingly, the present invention is not limited to the precise embodiments disclosed herein, but applies to glove and hand-receiving structures generally. 
     Certain regions of a glove or other hand-receiving structure or any portion thereof also may be described herein by reference to the anatomical structures of a human hand wearing a glove or other hand-receiving structure that is properly sized for that hand. Thus, a person skilled in the art will understand that a phrase like “aligning a cutout with the metacarpophalangeal joint” (or other joint) of a finger simply means that the cutout is positioned such that the opening of the cutout aligns with the noted joint of a hand that is properly sized for the glove (or other structure) when the hand is inserted into the glove (or other structure). Phrases of this type should not be construed as requiring a hand to be located within the glove or other structure. 
     Detailed Description of Example Glove Structures 
     According to certain aspects of the invention, glove structures as disclosed herein may provide improved support with increased flexibility and stretchability around a wearer&#39;s knuckle areas. According to certain embodiments, the improved support may be provided by a silicone rubber knuckle support member extending around and between at least some of a wearer&#39;s knuckles, while the increased flexibility may be provided by a stretchable textile material, e.g., a LYCRA-type material, forming a flexible member that. extends over at least some of a wearer&#39;s knuckles. 
     Further, according to other aspects of the invention, glove structures as disclosed herein may be elastic free across the back of the hand, especially in the vicinity of the wearer&#39;s knuckles. Thus, according to certain embodiments, the elastic provided in prior art gloves may be replaced with a knuckle support assembly having a silicone rubber knuckle support member and a stretchable textile material flexible member. The knuckle support assembly is designed to provide a nice, comfortable, seamless feel across the back of the hand that stretches well over the knuckles while providing support between the knuckles and fingers. The knuckle support assembly further may prevent unsightly bunching of the glove and loss of support as commonly occurs when elastic is used. 
       FIGS. 1A through 5  illustrate various views of embodiments of glove structures  100  in accordance with this invention. A first embodiment of a glove structure  100  is illustrated in  FIGS. 1A and 1B ; a second embodiment is illustrated in  FIGS. 2A and 2B ; a third embodiment is illustrated, at least partially, in  FIG. 3 ; a fourth embodiment is illustrated, at least partially, in  FIG. 4 ; and a fifth embodiment is illustrated, at least partially, in  FIG. 5 . 
     Specifically,  FIG. 1A  shows a front view and  FIG. 1B  shows a back view of a first embodiment. In this embodiment, glove structure  100  includes a main body  101  configured for receiving a metacarpal region of a wearer&#39;s hand, fingerstalls A, B, C, and D configured for receiving an index finger, a middle finger, a ring finger and a little finger, respectively, and thumb stall E configured for receiving a thumb. As shown, glove structure  100  may include a front portion  102 , a back portion  120  and a thumb portion  108 . 
     Referring to  FIG. 1A , the front side of the glove structure  100  includes a front portion  102  that includes a palm-covering front main section  102   a  and four front finger sections  104  extending from the palm-covering front main section  102   a . The four front finger sections  104  include an index-finger front section  104   a , a little-finger front section  104   d , and two intermediate front finger sections, a middle-finger front section  104   b  and a ring-finger front section  104   c . If desired, the front finger sections  104  may include small holes  106  or other openings (e.g., slits etc.) to improve ventilation and breathability. 
     Generally front portion  102  may be made of any desired material. In this embodiment, front portion  102  is formed from leather materials (natural or synthetic, e.g., cabretta leather, calfskin, etc.) or any other desired material that provides suitable grip properties. As another alternative, the natural or synthetic leather materials may be applied to a base fabric layer (e.g., polyester, rayon, cotton, etc.), for example, as patches, at desired locations on the palm, fingers, and/or thumb. In the embodiment of  FIG. 1A , front portion  102  is unitarily formed from a single piece of leather material. In general, front portion  102  may be formed of any number of pieces or parts and assembled via any of various constructions as would be known to persons of skill in the art given the benefit of this disclosure. Other suitable materials for the front section or portions thereof, as would be apparent to persons of ordinary skill given the benefit of this disclosure, may be used in various embodiments of this invention. 
       FIG. 1A  further illustrates thumb portion  108  attached to the front portion  102  along thumb cutout  110 . While it also may be made of any desired material, in this embodiment, at least the thumb stall  108   a  (shown in  FIG. 1A ) of the thumb portion  108  is formed from the same material as the front portion  102 , e.g., a natural or synthetic leather material. Also, while in general it may be made of any desired construction, the thumb stall  108   a  of thumb portion  108  in this embodiment is formed from a single piece of material. Thumb portion  108  is joined to thumb cutout  110  in front main section  102   a.    
     Referring now to  FIG. 2A , in this particular embodiment, an elongated thumb inset  108   b  may be located along thumb cutout  110  and along the outer-side seam (opposite to the palm-side) of thumb portion  108 . Elongated thumb inset  108   b  may extend at least a majority of the distance from the bottom of thumb cutout  110  to the top of thumb cutout. In some embodiments (not shown), thumb inset  108   b  may be provided as an elongated gore set within the material of a base region of thumb portion  108 , i.e., at least slightly away from the thumb cutout  110  (as opposed to being located along the cutout  110 ). Thumb inset  108   b  may be stitched to thumb portion  108 . Thumb portion  108  and thumb inset  108   b  may both be stitched to front main section  102   a . Alternatively, other techniques for attaching thumb portion  108  and/or thumb inset  108   b  to the glove structure  100 , as would be known by persons of ordinary skill in the art given the benefit of this disclosure, may be used in keeping with the invention. 
     Elongated thumb inset  108   b  provides the thumb portion  108  with the capability to elastically conform to the various thumbs sizes and shapes of different users and to allow more freedom of movement in the thumb region. Elongated thumb inset  108   b  may be formed of a stretchable and/or shape-retention material. 
     For purposes of this disclosure, “stretchability” refers to the capability of the material to elastically elongate, extend, expand, etc. in the plane of the material when subjected to an applied in-plane tensile load, such that upon release of the load the material reverts to its original configuration. “Shape retention” refers to the capability of a planar material to return to its planar configuration after being subjected to an out-or-plane load. 
     In general, any desired elastically stretchable material may be used. According to certain embodiments, an elastically stretchable material that is also breathable may be preferable. Thus, for example, open mesh materials, synthetic suede, polyesters, rayons, nylon, or the like, and any combination thereof, may be considered suitable materials for the desired elastically stretchable material. Stretchable, extensible or elastically expandable materials may include materials having an inherent elastic extensibility or stretchability (for example, elastane fibers as included in Spandex® or LYCRA®-type materials, natural or synthetic latex fibers, etc.). According to certain embodiments, materials having at least 1% elastane fibers or at least 2% elastane fibers may be desired, although materials having greater than 0.5% elastane fibers may be suitable. 
     The stretchable, extensible or elastically expandable materials may include or be formed from various textile materials or fabrics. As noted above, examples of textile materials that may be used include Spandex® or LYCRA® or other stretchable synthetic materials. In some embodiments, the textile materials may be a blend of cotton, polyester and elastane fibers and may include hollow polyester fibers that wick moisture. Examples of such textile materials include fabrics sold under the name Dri-FIT® by NIKE, Inc. of Beaverton, Oreg. Such fabrics may move perspiration away from the wearer&#39;s skin to the garment surface where the perspiration can evaporate quickly so as to help keep the wearer dry and comfortable. The elastane fibers within the textile material stretch to provide a comfortable, personalized fit. 
     Additionally or alternatively, the configuration of the material itself (i.e., knit, mesh, looped, perforated, etc.) may contribute to the material&#39;s stretchability. Thus, according to some embodiments, the extensible material may be a textile material. According to other embodiments, the extensible material may be an elastomeric film, elastomeric sheet, or other relatively thin elastomeric layer. Such an elastomeric layer may be perforated. Further, such an elastomeric layer may be fiber reinforced. The elastically stretchable material may include a plurality of layers, including one or more textile material layers and/or one or more elastomeric material layers. 
     The stretchable or extensible material may be stretchable in one direction or in more than one direction. Further, the stretchability of the material may be different or the same in the different directions. For example, for the elongated thumb inset  108   b , the stretchable material may be provided with its maximum extensibility oriented across the width (i.e., across the narrow dimension) of the inset  108   b . According to some embodiments, a material having an elastic extensibility of greater than 100% in at least one direction may be suitable. Materials having an elastic extensibility of greater than 150% or even greater than 200% in at least one direction may be desired. 
     In some embodiments, the elongated thumb inset  108   b  may further extend around the base region of the thumb portion  108 . In even other embodiments, an elongated thumb inset (not shown) may be provided on the palm-side of thumb portion  108 . Optionally, a single elongated thumb inset  108   b  may extend completely, substantially completely, or a majority of the way, around the base region of the thumb portion  108 , thereby providing even greater freedom of movement in the thumb region. In even other embodiments, thumb portion  108  need not include any elongated thumb inset  108   b.    
     Referring now to  FIG. 1B , the back portion  120  of an example glove structure  100  is shown. The back portion  120  is engaged directly or indirectly with the front portion  102  and covers a back of a wearer&#39;s hand. In this illustrated example, the back portion  120  includes a back main section  120   a  located opposite the palm-covering front main section  102   a  and four back finger sections  122  extending from the back main section  120   a  and located opposite the four front finger sections  104 . An interior chamber for receiving the wearer&#39;s hand is defined between the front portion  102  and the back portion  120 . A palm-receiving void is defined between the back main section  120   a  and the front main section  102   a . The four back finger sections  122  include an index-finger back section  122   a , a little-finger back finger section  122   d , and two intermediate finger back sections, a middle-finger back section  122   b  and a ring-finger back section  122   c.    
     If desired, the front portion  102  and the back portion  120  may be directly coupled to one another, e.g., by stitching or sewing or other techniques, for example, down the sides of the glove  100  and/or down the sides of the finger stalls A, B, C and D. This connection, however, may be indirect in some embodiments, at least in some areas of the glove structure  100 . For example, at least some of the front finger sections  104   a  through  104   d  may be engaged with at least some of the back finger sections  122   a  through  122   d  at their side edges by fourchettes or gusset members  140 . 
     As shown in  FIG. 1A , gusset members  140  may be located between the front finger sections  104  and the back finger sections  122  and extend from the valley areas  142  to the fingertips  144 . In particular, in this embodiment, gusset members  140  may be wider in the valley areas  142  at the base of the fingers and narrower at the fingertips  144 . 
     Gusset members  140  may be formed of the same material as the front finger sections  104 , of the same material as the back finger sections  122 , or of a completely different material. As shown in the embodiment of  FIGS. 1A and 1B , gusset members  140  may be formed of an elastically extensible material and may be formed of the same or similar material to that disclosed above with respect to the elongated thumb inset  108   b.    
     Further, if desired, adjacent pairs of gusset members  140  which extend from a common valley area  142  may be formed as a unitary, one piece construction such that a single piece of gusset material extends through the valley areas  142  between finger sections. Additionally or alternatively, if desired, adjacent pairs of gusset members  140  which extend from a common fingertip area  144  may be formed as a unitary, one piece construction such that a single piece of gusset material extends over the fingertip area  144  of any given finger. As another example, if desired, all of the gusset members  140  may be formed as a unitary, one piece construction, e.g., a single piece of gusset material extends from the tip of the little finger to the tip of the index finger while forming all of the valley areas  142  therebetween. 
     Optionally, instead of gusset members  140  forming the sides of the fingers stalls A, B, C, and D, extra material of either the front finger sections  104  and/or the back finger sections  122  may be provided. Typically, this gusset-less construction reduces the number of seams required for manufacture. For purposes of this disclosure, the term “seam” refers to a junction or engagement area wherein at least to adjoining components are attached together. A seam need not be stitched, but may be formed via any suitable joining technique (e.g., stitching, bonding, fusing, etc.) as would be known to persons of ordinary skill in the art given the benefit of this disclosure. 
     In the various example structures described herein with respect to  FIGS. 1A through 5 , the front portion  102 , the thumb portion  108 , the back main section  120   a  and at least of portion of the back finger sections  122  may be made from the same material, e.g., a leather or leather-like material. The gusset members  140  and/or the elongated thumb inset  108   b  may be made from a different material, e.g., LYCRA® or Spandex®. Although these materials may be desirable, various other materials, as would be apparent to persons of ordinary skill given the benefit of this disclosure, are possible without departing from this invention. 
     Still referring to the embodiment of  FIGS. 1A and 1B , the front portion further includes a wrist area  112  and the back portion  120  further includes a wrist area  124 . Wrist areas  112 ,  124  are located near the opening  114  for receiving the wearer&#39;s hand. Wrist area  112  may include an elastic component  116  and/or wrist area  124  may include an elastic component  126  as a means for securing the glove structure snugly and comfortably to the user&#39;s hand. Elastic components  116 ,  126  may be formed as a single band or strap of elastic material that extends continuously around the wrist area. Typically, elastic components  116  and  126  would be located on the inside or in the interior of the wrist areas. In general, any number of elastic elements may be incorporated into the elastic components  116 ,  126  without departing from this invention. For example, a plurality of elastic elements, arranged in parallel and/or in series, may constitute means for securing the glove. Optionally, wrist areas  112 ,  124  may be provided by a separate cuff element. As an example, cuff element may be formed as a knitted and ribbed expandable element that is engaged with the front portion  102  and the rear portion  120  by sewing or stitching or in another desired manner. Alternatively, cuff element may be formed from an elastically stretchable material as describe above with respect to thumb inset  108   b.    
     Thus, according to some embodiments, wrist opening  114  and/or the elastic component(s)  116 ,  126  in the wrist areas  112 ,  124  are sufficiently stretchable to enable the wearer to insert his/her hand without the need for a wider opening. Wrist area may also include edge piping  115 . When edge piping  115  is provided around the wrist opening  114 , the edge piping  115  may need to be discontinuous and/or sufficiently stretchable to accommodate the necessary stretching require for a wearer to insert his/her hand. 
     As shown in the embodiment of  FIGS. 2A and 2B , the glove structure  100  may include an additional means for securing the glove. In  FIG. 2B , glove  100  includes a glove opening slit  128  that increases the glove opening size to allow easy insertion and removal of a wearer&#39;s hand. Glove opening slit  128  may, optionally, includes a gore inset (not shown) between the edges of the glove opening slit  128 . Such a gore inset may be elasticized or folded to accommodate the opening and closing of the slit  128 . In one embodiment, gore inset may be formed of an elastic stretchable material as described above with respect to thumb inset  108   b.    
     According to certain embodiments and still referring to  FIGS. 2A and 2B , the glove opening slit  128  is closed off by a closure system  130 , which may be attached to at least one of the front portion  102  and the back portion  120  of the glove  100 . While any desired type of closure system  130  may be provided without departing from this invention, in this embodiment, the closure system  130  includes a flap  132  engaged with at least one of the front portion  102  and the back portion  120 . The flap  132  may include a first portion a fastener and the back portion  120  may include a complementary portion of the fastener. Example fasteners may include hook-and-loop fasteners, snaps, magnets, buttons, etc. Flap  132  may be formed of a rubber or rubber-like material. In particular, flap  132  may include a layer of a silicone rubber having a thickness from 0.10 mm to 0.30 mm. Thus, according to some embodiments, flap  132  may be formed as a relatively inextensible flap. 
     As shown in  FIG. 2B , flap  132  may include an attached or proximal end  132   a  and a free end or distal end  132   b . An elastic band  134  may extend from the outside seam (e.g., seam  103 ) to the attached edge  132   a  of flap  132  so that, when the flap  132  is secured, the glove structure  100  can be elastically snugged around the wearer&#39;s hand. Elastic band  134  is typically located in the interior of the glove structure  100 . Still referring to  FIG. 2B , the complementary fastening systems, e.g., a hook-and-loop system, may stop short or lie inboard of the distal or free end  132   b  of flap  132 . In such instance, the distal end  132   b  of flap  132  becomes a free end tab  137  providing a grasping portion, wherein a user may easily grasp both sides of the free end  132   b  of the flap  132 . 
     Further, one or more tactile elements  134  may be provided the free end tab  137  at the distal end  132   a  of flap  132  to assist a user in gripping the flap  132  when fastening and/or unfastening the flap  132  to the back portion  120 . In this particular embodiment, tactile element  134  is provided as a one or more raised bumps or protrusions. In other embodiments, tactile element  134  may be provided as thickened portions, folded portions, indentations, textured surfaces, raised ribs, etc. According to certain embodiments, when the free end tab  137  is formed at least partially of a silicone rubber, the at least one tactile element  134  may be provided as a silicone rubber raised protrusion extending from the silicone rubber of the free end tab  137 . 
     Referring now to the embodiment of  FIG. 4 , a flap  132  may be fastened to the back main section  120   a  with a hook-and-loop fastener system having unequal hook and loop areas. The hook portion  135   a  of the hook-and-loop fastener may be fastened to the back main section (shown schematically in  FIG. 4  as a dash-dot line); the loop portion  135   b  may be fastened to the flap  132  (shown schematically in  FIG. 4  as the dashed line). Thus, it can be seen that the loop portion  135   b  extends to the distal end  132   b  of flap  132 , while the hook portion  135   a  may lie inboard of the distal end  132   b  of flap  132 . The distal end  132   b  of flap  132  that extends beyond hook portion  135   a  may be used as a grasping portion or free end tab  137  (tactile elements  134  may be provided on this flap  132 , if desired). 
     In other embodiments, for example, as shown in  FIG. 3 , a glove opening slit  128  may be opened and closed with a zipper or zipper-type fastening component  133 . Thus, zipper-type components or other continuously interlocking, elongated fastening systems (with or without sliding elements) may be provided as part of a closure system  130 . Such zipper-type components may be provided as Ziploc®-type closure elements, with or without a slider. 
     In even other embodiments, for example, as shown in  FIG. 5 , a closure system  130  may include a strap  138  that includes an elastic, stretchable portion  139 . Strap  138  may be attached or fastened at both ends  138   a ,  138   b  on either side of a glove opening slit (like slit  128  shown in  FIG. 2B ). Optionally, as shown in  FIG. 5 , strap  138  may be provided without any glove opening slit. During insertion and removal of a wearer&#39;s hand, strap  138  remains attached or fastened to the back portion  120  of glove  100 . Ease of insertion and removal of a wearer&#39;s hand is facilitated by the stretching of the elastic portion  139 . Thus, it can be seen that various means for securing the glove snugly around the user&#39;s wrist, including various elastic components, closure systems  130 , and any combination thereof, may be provided without departing from the invention. 
     Referring back to  FIG. 1B , the back portion  120  of the glove structure  100  includes at least one knuckle support assembly  200 . The knuckle support assembly  200  of this illustrated example extends between the back main section  120   a  and one or more of the back finger sections  122 . Knuckle support assembly  200  includes a knuckle support member  210  and a flexible member  230 . The knuckle support assembly  200  may extend across a majority of the knuckle region of the wearer&#39;s hand. In the embodiment of  FIG. 1B , knuckle support assembly  200  forms a continuous path from a first side (i.e., an outer side or little finger-side) of the back portion  120  to the opposite side (i.e., an inner side or index finger-side) of the back portion  120 . Indeed, in this particular embodiment, knuckle support assembly  200  extends from edge-to-edge of the back portion  120 . 
     The knuckle support member  210  includes one or more cutouts  212  which may be located over or aligned with one or more of the top knuckles (i.e., the metacarpophalangeal joints) of the user (when a user&#39;s hand is inserted into the glove structure  100 ). Thus, a knuckle support member  210  may include a knuckle cutout  212  for the top knuckle of the index finger; a knuckle cutout  212  for the top knuckle of the middle finger; a knuckle cutout  212  for the top knuckle of the ring finger; and/or a knuckle cutout  212  for the top knuckle of the little finger. According to some embodiments, there may be an individual knuckle cutout  212  for each of the four top knuckles, i.e., there may be a one-to-one correspondence between each top knuckle and each top knuckle cutout  212 . Optionally, the knuckle support member  210  may include knuckle cutouts  212  for less than all of the top knuckles. As an example, the knuckle support member  210  may include a knuckle cutout  212  for the top knuckle of the index finger and a knuckle cutout  212  for the top knuckle of the middle finger. Alternatively, referring to  FIG. 4 , the knuckle support member  210  may include individual knuckle cutouts  212  for the top knuckles of the little finger, the middle finger and the index finger. 
     For purposes of this disclosure, the term “cutout” refers to any opening, aperture, hole, orifice, gap, etc. Any suitable method may be used to form the cutout, including cutting, stamping, molding, piecing, framing, etc. Further, a cutout need not be completely framed or encircled by the knuckle support member  210 . Thus, according to certain embodiments, a cutout may be fully encircled by a closed frame, while according to other embodiments, a cutout may be only partially encircled by an open frame. 
     According to certain aspects and referring to  FIGS. 2B, 3 and 5 , the knuckle support member  210  may include knuckle cutouts  212  for at least some of the proximal knuckles (i.e., the proximal interphalangeal joints). Thus, a knuckle support member  210  may include a knuckle cutout  212  for the proximal knuckle of the index finger; a knuckle cutout  212  for the proximal knuckle of the middle finger; a knuckle cutout  212  for the proximal knuckle of the ring finger; and/or a knuckle cutout  212  for the proximal knuckle of the little finger. According to some embodiments, the knuckle support member  210  may include a knuckle cutout  212  for only some of the proximal knuckles. As another example and referring specifically to  FIG. 2B , the knuckle support member  210  may include a knuckle cutout  212  for the proximal knuckle of the middle finger, a knuckle cutout  212  for the proximal knuckle of the ring finger, and a knuckle cutout  212  for the proximal knuckle of the little finger. 
     According to even other aspects and referring, for example, to  FIG. 5 , the knuckle support member  210  may include one or more knuckle cutouts  212  for the distal knuckles (i.e., the distal interphalangeal joints). Thus, a knuckle support member  210  may include a knuckle cutout  212  for the distal knuckle of the index finger; a knuckle cutout  212  for the distal knuckle of the middle finger; a knuckle cutout  212  for the distal knuckle of the ring finger; and/or a knuckle cutout  212  for the distal knuckle of the little finger. 
     According to certain embodiments, a single knuckle cutout  212  may be provided for two or more knuckles. Thus, for example, still referring to  FIG. 5 , a single knuckle cutout  212   a  may extend around the top knuckles of both the little finger and the ring finger. As another example (not shown), a single knuckle cutout  212  may extend around the top knuckle and the proximal knuckle for any given finger. 
     Thus, it has been disclosed that knuckle cutouts  212  may be formed with various sizes and shapes. According to certain embodiments, the knuckle cutouts  212  may all have the same size and shape. Alternatively, the knuckle cutouts  212  may have the same or similar shape, yet be sized according to the general size of the knuckles. Thus, for example, a knuckle cutout  212  for the top knuckle of the index finger may have an area ranging from 80.0 mm 2  to 150.0 mm 2 , while a knuckle cutout  212  for the top knuckle of the little finger may have an area ranging from 40.0 mm 2  to 100.0 mm 2 . As another example, the areas of the knuckle cutouts  212  for the top knuckles and the proximal knuckles for any given finger may be substantially the same-the area of the proximal knuckle cutout  212  may be within ±20% of the area of the top knuckle cutout  212  for the same finger. 
     Optionally, different shaped cutouts  212  may be provided for the different knuckles. According to some embodiments, the knuckle cutouts  212  may be longer in the longitudinal direction than in the lateral direction. For example, the knuckle cutout  212  may be shaped as a diamond having a greater longitudinal length between points of the diamond and a lesser lateral width. The diamond-shaped cutout  212  may be generally centered over the center of the knuckle. The greater longitudinal length of the cutout  212  may provide a more desirable degree of flexibility as the finger associated with the cutout  212  is curled. Referring to  FIG. 4 , cutouts  212  are shown with substantially oval shapes. Referring to  FIG. 5 , cutouts  212  are shown with diamond, arrow and irregular shapes. Other knuckle cutout shapes may include circles, ellipses, rectangles, slits, etc. and other symmetrical, non-symmetrical, regular, or irregular shapes. Suitable knuckle cutout shapes would be apparent to persons of ordinary skill in the art given the benefit of this disclosure. 
     According to certain aspects and as best shown in  FIGS. 1B, 2B and 4 , knuckle support member  210  may be formed as a web structure having a plurality of elongated segments  222  interconnected at junctions  224 . The elongated segments  222  may extend around and frame  220  one or more of the user&#39;s knuckles. Further, the knuckle support member  210  may form a plurality of frames  220  extending around the cutouts  212  and around the top knuckles of the user. Even further, referring to  FIGS. 2B, 3 and 5 , knuckle support member  210  may form a plurality of frames  220  extending around various proximal and/or distal knuckles of the fingers. The frames  220  of knuckle support member  210  may encircle and support the wearer&#39;s individual knuckles. 
     The size(s), location(s), and/or extent of the frames  220 , elongated sections  222  and/or junctions  224  of the knuckle support member  210  may be selected and arranged so as to provide the desired level of support and/or stretch resistance and/or to provide an overall desired aesthetic appearance to the glove structure  100 . As shown in the embodiment of  FIG. 2B , a single knuckle support member  210  may be provided. If desired, one or more knuckle support members  210  may be provided. For example, a first knuckle support member may provide cutouts for one or more of the top knuckles and one or more additional knuckle support members may provide cutouts for one or more of the proximal and/or distal knuckles. 
     According to some aspects, knuckle support member  210  may have a wave-like or undulating proximal edge  215  extending transversely at least partially across the back of the glove structure  100 . For purposes of this disclosure, “wave-like” refers to a curved, non-linear feature and may encompass regular and irregular cyclic features. “Undulating” refers to a curved, non-linear feature that need not necessarily be cyclical. The wave-like or undulating proximal edge  215  may further enhance the overall flexibility of the knuckle support member  210  and the knuckle support assembly  200 . 
     According to certain aspects, the knuckle support member  210  may act as a doubler, providing additional strength, enhancing durability and optimizing support. For example, knuckle support member  210  may be flexurally stiffer than the material(s) forming the back main section  120   a  and the back finger sections  122 . Thus, knuckle support member  210 , when properly fit to and positioned on a user&#39;s hand, may provide support for the fingers and encourage the proper positioning of the fingers while gripping an object. 
     For example, referring to  FIG. 1B , knuckle support member  210  may be located in close proximity to and extend across the valley area  142  of two adjacent fingers, e.g., the index finger and the middle finger. This extra support along the back of the user&#39;s hand adjacent to the valley area may encourage the correct relative positioning of these two fingers, such that, for example, the fingers are held closer together to provide a tighter grip. Conversely, referring to  FIG. 2B , knuckle support member  210  may be positioned away from the valley area  142  of, for example, the little finger with the ring finger and the ring finger with the middle finger, while being positioned in close proximity to the valley area  142  between the index finger and the middle finger. Positioning the knuckle support member  210  away from the valley area  142  between adjacent fingers may provide greater flexibility and foster the easy spreading of these fingers, thereby facilitating a wider extension of the fingers (for example, on the little finger-side of the grip). 
     The cutouts  212  of the knuckle support member  210 , when positioned over or aligned with the knuckle joints of a wearer&#39;s hand, may provide beneficial flexibility in the immediate region of the knuckles. Even further, according to some embodiments, knuckle support member  210  may be formed with a varying degree of flexibility or, conversely, a varying degree of stiffness. Different thicknesses, different materials, multiple layers, etc. may be used to provide such a varying and selective degree of flexibility. For example, where greater stiffness of the knuckle support member  210  is desired, the knuckle support member  210  may be provided with an increased thickness, a second layer of material, a stiffer material, etc. Thus, for example, in the embodiment of  FIG. 3 , although knuckle support member  210  continuously extends from side-to-side and from below the top knuckles to distally of the proximal knuckles, the flexural stiffness of knuckle support member  210  need not be constant across this entire region. Specifically, the thickness (and thus, also the flexural stiffness) of the knuckle support member  210  may be greater around the cutouts  212  (e.g., in the frame regions  220 ) than between the frame regions (e.g., in the far field region). Zones of increased thickness may provide additional support in certain regions. In  FIG. 3 , the increased stiffness in the frame regions  220  around the cutouts  212  is schematically shown by dashed lines. According to another embodiment (not shown), a zone of increased thickness may be provided in the index finger region, while a zone of relatively decreased thickness may be provided in the little finger region. 
     Optionally, the knuckle support member  210  or portions thereof may be provided with a preset curvature to provide further support and facilitate proper positioning of the fingers. As a more specific example, if desired, the material of the knuckle support member  210  may be molded or otherwise formed into a pre-curved configuration such that even before a wearer dons the glove structure (i.e., in an initial configuration), at least a portion of the knuckle support member  210  is curved. The axis of curvature may extend across the knuckle or central portion of the knuckle support member  210  from side-to-side (e.g., as if the wearer&#39;s hand was grasping a rod and the axis of curvature is aligned with the axis of the rod). According to certain embodiments, the pre-curved configuration may be limited to the top knuckle region, while any portions of the knuckle support member  210  that may extend into the finger areas may remain uncurved in an initial configuration. As an example embodiment, a knuckle support member  210  may include one or more convexly curved frames  220  or elongated elements  222  extending across the top knuckle region, i.e., from a distal region of the top knuckle region to a proximal region of the top knuckle area. Further, as another example, the knuckle support member  210  may be provided with a preset curvature in the index finger top knuckle region, but not provided with any preset curvature in the little finger top knuckle region. 
     According to certain embodiments, the preset curvature may shape the knuckle support member  210  to correspond to the shape of the hand when gripping something. Alternatively, the preset curvature may shape the knuckle support member  210  to correspond to the shape of the hand in a relaxed position. This preset curvature may be accomplished, for example, by molding the knuckle support member  210  in this manner (e.g., by injection molding), by applying heat and pressure to the knuckle support member around a curved platen or post, or in any other desired manner. 
     According to other aspects, knuckle support member  210  may be more elastically stretchable than the back main section  120   a . Further, knuckle support member  210  may be more elastically stretchable than the back finger sections  122 . In other words, relative to the material of the back main section  120   a  and/or the material of the back finger sections  122 , knuckle support member  210  may have a relatively high degree of in-plane elastic stretchability. Thus, immediately around the various knuckles regions, a greater degree of flexibility, comfort and conformance may be provided. Additionally, knuckle support member  210  may be provided with a relatively high degree of out-of-plane elastic stiffness. Thus, relative to the material of the back main section and/or the material of the back finger sections  122 , knuckle support member  210  may have a relatively high degree of flexural stiffness. In other words, in some embodiments, knuckle support member  210  may stretch easily, but not drape as readily as the material of the back main section  120   a  and/or the material of the back finger sections  122 . 
     According to other aspects and referring to  FIGS. 1B, 2B, 3, 4 and 5 , a flexible member  230  may extend across one or more of the cutouts  212  or framed portions of the knuckle support member  210 . Flexible member  230  may have a relatively high degree of in-plane elastic stretchability and/or a relatively high degree of out-of-plane elastic flexibility. In other words, flexible member  230  may stretch easily and/or flexible member  230  may bend or drape easily. 
     In general, any desired elastically stretchable material may be used for flexible member  230 . According to certain embodiments, an elastically stretchable material that is also breathable may be preferable. Thus, for example, open mesh materials, synthetic suede, polyesters, rayons, nylon, or the like, and any combination thereof, may be considered suitable materials for the desired elastically stretchable material. Stretchable, extensible or elastically expandable materials may include materials having an inherent elastic extensibility or stretchability (for example, elastane fibers as included in Spandex® or LYCRA®-type materials, natural or synthetic latex fibers, etc.). According to certain embodiments, materials having at least 1% elastane fibers or at least 2% elastane fibers may be desired, although materials having greater than 0.5% elastane fibers may be suitable. 
     The stretchable, extensible or elastically expandable materials may include or be formed from various textile materials or fabrics. As noted above, examples of textile materials that may be used include Spandex® or LYCRA® or other stretchable synthetic materials. In some embodiments, the textile materials may be a blend of cotton, polyester and elastane fibers and may include hollow polyester fibers that wick moisture. Examples of such textile materials include fabrics sold under the name Dri-FIT® by NIKE, Inc. of Beaverton, Oreg. Such fabrics may move perspiration away from the wearer&#39;s skin to the garment surface where the perspiration can evaporate quickly so as to help keep the wearer dry and comfortable. The elastane fibers within the material stretch to provide a comfortable, personalized fit. 
     Additionally or alternatively, the configuration of the material itself (i.e., knit, mesh, looped, perforated, etc.) may contribute to the material&#39;s stretchability. Thus, according to some embodiments, the extensible material may be a textile material. According to other embodiments, the extensible material may be an elastomeric film elastomeric sheet, or other relatively thin elastomeric layer. Such an elastomeric layer may be perforated. Further, such an elastomeric layer may be fiber reinforced. The elastically stretchable material may include a plurality of layers, including one or more textile material layers and/or one or more elastomeric material layers. 
     The stretchable or extensible material may be stretchable in one direction or in more than one direction. Further, the stretchability of the material may be different or the same in the different directions. For example, for the flexible member  230 , the stretchable material may be provided with its maximum extensibility being longitudinally oriented, i.e., in a proximal-to-distal direction, of the cutout  212 . According to some embodiments, a material having an elastic extensibility of greater than 100% in at least one direction may be suitable. Materials having an elastic extensibility of greater than 150% or even greater than 200% in at least one direction may be desired. 
     Although, according to certain embodiments, flexible member  230  extends across all of the cutouts  212  of the knuckle support member  210 , in general, not every cutout  212  need be covered. In other words, one or more of the cutouts  212  may remain open and uncovered, without having flexible member  230  extending there across. 
     Flexible member  230  may be attached to the knuckle support member  210  to form knuckle support assembly  200 . According to certain embodiments, the flexible member  230  may be attached to the individual frames  220  extending around the knuckles. Specifically, the flexible member  230  may be attached to the edges of the cutouts  212 . 
     In addition, according to some embodiments, flexible member  230  may be coextensive with the perimeter edges of the knuckle support member  210 . For example, the flexible member  230  may be provided as a continuous layer that extends under the entire knuckle support member  210  as shown in  FIG. 6 . Further, flexible member  230  may be attached to the perimeter edges of the knuckle support member  210 . Flexible member  230  may also be provided as multiple pieces. The multiple pieces may be joined to form a continuous layer or they may remain discrete, thereby forming a discontinuous layer. The multiple pieces may be constructed of the same material or of different materials. If formed of the same material, the multiple pieces of the flexible member  230  may have any of various thicknesses and/or number of layers. 
     According to certain embodiments, flexible member  230  may extend beyond the perimeter edges of the knuckle support member  210 . For example, as shown in  FIG. 2B , portions of flexible member  230 ′ are not located within cutouts  212  and are not located over any specific knuckle. These portions of the flexible member  230 ′ may provide additional flexibility in areas removed from the immediate knuckle regions, for example, adjacent to certain of the valley areas  142  of the glove structure  100 . 
     Flexible member  230  may be more stretchable than the back main section  120   a . Flexible member  230  may be more stretchable than the back finger sections  122 . Even further, flexible member  230  may be more stretchable than the knuckle support member  210 . Further, the material of flexible member  230  may have a greater degree of shape retention as compared to the material of the back main section  120   a  and/or the back finger sections  122 . Thus, immediately over the various knuckle regions, a greater degree of flexibility, comfort and conformance may be provided. 
     According to certain aspects, the knuckle support member  210  may have a significantly greater flexural stiffness than the flexible member  230  to which it is joined. Thus, according to some embodiments, the knuckle support assembly  200  may have substantially the same flexural stiffness as the knuckle support member  210  by itself. In other words, the addition of the flexible member  230  may not appreciably increase the flexural stiffness of the knuckle support assembly  200  above the flexural stiffness of the knuckle support member  210 . For example, the flexural stiffness of the knuckle support assembly  200  may be within 5% of the flexural stiffness of the knuckle support member  210 . In other examples, the flexural stiffness of the knuckle support assembly  200  may be within 10% or even within 15% of the flexural stiffness of the knuckle support member  210 . 
     Further, knuckle support member  210  may have a greater flexural stiffness than the various sections of the back portion  120  to which it is joined. Thus, the knuckle support member  210  may provide at least a local increase in the flexural or bending stiffness of the glove structure  100 . This may provide additional support to the wearer&#39;s knuckles, particularly when the hand is flexed. 
     The knuckle support assembly  200  may be made from molded rubbers, molded thermoplastics, TPUs, TPRs, etc. for the knuckle support member  210  and an elastically stretchable material, as described above, for the flexible member  230 . According to certain embodiments, the knuckle support member  210  may be a silicone rubber or other rubber-like material and the flexible member  230  may be a Spandex®, LYCRA®, Dri-FIT® type of textile material. Although these materials may be desirable, various other materials, as would be apparent to persons of ordinary skill given the benefit of this disclosure, are possible without departing from this invention. Further, the knuckle support member  210  may be over-molded, fuse bonded, adhesive bonded, etc. to the flexible member  230 . Thus, according to certain embodiments, a silicone rubber knuckle support member  210  may be over-molded to a Dri-FIT® flexible member  230 ; a silicone rubber knuckle support member  210  may be fuse bonded to a Dri-FIT® flexible member  230 ; or a silicone rubber knuckle support member  210  may be adhesively bonded to a Dri-FIT® flexible member  230 . 
     Various designs or arrangements of the knuckle support assembly  200  are possible without departing from this invention. Increasing the overall stiffness of the knuckle support member  210  provides a more stable fit, and greater support. In contrast, the knuckle cutouts  212  provide the desired flexibility. Localized increases in the in-plane stiffness and/or the flexural or bending stiffness of the knuckle support member  210  may be achieved by increasing the amount of material in the frames  220 , elongated elements  222  and/or junctions  224  or by using inherently stiffer materials. Thus, the knuckle support assembly  200  described herein provides greater flexibility in tailoring the glove structure  100  to any specific desired stiffness. 
     According to some aspects, the majority of the back finger section  122  of the index finger may be constructed of a conventional material, for example, the natural or synthetic leather disclosed above. Providing the knuckle support member  210  only in the vicinity of the top knuckle of the index finger, such that the remainder of the index finger (i.e., over the proximal and distal knuckle regions) is covered with the leather (or other gripping material) may be advantageous. This is because many golfers overlap their fingers when gripping a golf club shaft such that the little finger of the bottom hand (which is typically un-gloved) overlies and lays on the back of the index finger of the top hand (i.e., the gloved hand). Maintaining the higher grip material (i.e., for example, a leather material of back finger section  122  as opposed to a LYCRA®-type material of flexible member  230 ) along most of the length of the index finger potentially keeps the little finger from slipping during the golf swing, provides the golfer with a conventional feel, and provides a more stable grip. 
     Also, in the illustrated embodiments, the knuckle support assembly  200  engages only the back portion  120  (e.g., from one side seam  103  of the glove  100  to the other side seam  105 ). However, if desired, the knuckle support assembly  200  may extend around the sides of the glove structure  100  and engage and/or at least partially overlap the front portion  102 . Further, as illustrated in  FIG. 4 , the knuckle support assembly  200  need not extend all of the way to the extreme edges of the back portion  120 , but may extend only part of the way across the transverse width of the back portion  120 . 
     Additional aspects relate to methods for making glove structures and/or components thereof. Such methods may include: (a) attaching a knuckle support member  210  to a flexible member  230  to form a knuckle support assembly  200 ; (b) attaching the knuckle support assembly  200  to a back main section  120   a  of a back portion  120  of the glove structure  100 ; and (c) attaching the knuckle support assembly  200  to back finger sections  122  of a back portion  120  of the glove structure  100 . The knuckle support member  210  may be joined to the flexible member  230  by over-molding (or other molding techniques, including compression molding, pour molding, co-molding, etc., as may suitable for specific materials), fuse bonding, sewing, adhesive bonding, etc. Over-molding is an injection molding process where one material is molded onto a second material. The over-molded material generally forms a strong bond with the second material that is maintained in the end-use environment. The use of primers or adhesives during the over-mold process is typically not required to achieve an optimum bond between the two materials. Fuse bonding may be accomplished by using heat and pressure, H/F welding, R/F welding, laser welding, hot melt pressing, etc. The seam or junction formed by joining the knuckle support member  210  to the flexible member  230  (whether via over-molding, fuse bonding, sewing, adhesive, etc.) may be a flexible, non-rigid seam. It may be desirable to have a flexible seam that does not appreciably (or only minimally, if at all) increase the flexural stiffness of the frames  220  extending around the knuckle cutout  212  regions. 
     Further, the knuckle support assembly  200  may be joined to sections of the back portion  120  (e.g., the back main section  120   a  and the back finger sections  122 ). For example, the back main portion  102   a  and the knuckle support assembly  200  may be engaged to each other below the metacarpophalangeal knuckle region. The engagement of the knuckle support assembly  200  to the back main portion  102   a  may extend substantially straight across the back of the glove structure  100 , from the outside of the little finger to the thumb-side of the index finger. Alternatively, as shown in  FIGS. 1B and 2B , to provide a greater degree of flexibility across the back of the glove structure  100 , the engagement line  211  may be wave-like or undulating. According to some embodiments, and still referring to  FIGS. 1B and 2B , the undulations of the engagement line  211  may follow the knuckles, in that undulation peaks  211   a  may be aligned between the knuckles and undulation troughs  211   b  may be aligned with the knuckles. The peak-to-trough distance may be greater than 0.4 mm, greater than 0.6 mm, greater than 0.8 mm or even greater than 1.0 mm. Optionally, the peak-to-trough distance may range from 0.3 mm to 1.5 mm. If desired, the peak-to-trough distance may range from 0.3 mm to 1.0 mm, from 0.3 mm to 0.7 mm, or even from 0.3 mm to 0.5 mm. 
     The knuckle support assembly  200  may be joined to sections of the back portion  120  by sewing, adhesive bonding, fuse bonding, etc. Other engagement techniques, as would be known to persons of ordinary skill in the art given the benefit of this disclosure, may be suitable. For purposes of this disclosure, a stitch line form with zig-zag stitches (i.e., the individual stitches zig-zag) is not considered to be a wave-like or undulating stitch line unless the line formed by a plurality of the individual stitches curves or undulates. For additional strength and durability, a double line of stitching may be provided. 
     The knuckle support assembly  200  may similarly be joined to the individual back finger sections  122 . The individual stitch lines  213  may extend transversely straight across the back of the fingers. Alternatively, the stitch lines  213  may undulate such that stretching the undulation may provide an additional measure of flexibility. Other suitable joining techniques and configurations would be apparent to persons of ordinary skill in the art given the benefit of this disclosure. 
     Still other aspects of this invention relate to methods for making glove structures  100  and/or components thereof that may include attaching the back portion  120  to a front portion  102  of the glove structure  100 . For example, referring to  FIGS. 1A and 1B , the back portion  120  may be formed separately from the front portion  102  and the two portions may be attached to each other by forming first and second side seams  103 ,  105 . The first seam  103  may extend from the wrist region to the fingertip region along the outer side (or little finger-side) of the glove structure  100 . Thus, seam  103  may be formed along the outer side of the little finger. The second seam  105  may extend from the wrist regions  112 ,  124  to the fingertip region  144  along the inner side (or thumb-side) of the glove structure  100 . Thus, seam  105  may be formed along the thumb side of the index finger. Alternatively, the back main section  120   a  may be unitarily provided with a front portion  102  as part of a flat glove blank and a method for making a glove  100  may include overlapping the back main portion  120   a  of the glove blank with the front portion  102  of the glove blank and joining the edges of the overlapped portions to each other with a single seam to form a palm-receiving void. For example, referring to  FIGS. 2A and 2B , a glove blank may be formed with the back main section  120   a  and the front portion  102  being continuous across the thumb side of the palm-receiving void and the thumb side of the index finger, such that the palm-receiving void is formed without a thumb-side seam. In other words, in this embodiment, there is no seam  105 . In some embodiments, the overlapped portions of the glove blank may be seamed along a little finger-side of the palm-receiving portion. In other embodiments, the overlapped portions of the glove blank may be seamed along the back of the palm-receiving portion. In such instance, the edges of a left main back section and a right main back section may be brought together and seamed. 
     Other methods for making glove structures  100  and/or components thereof may include attaching a thumb portion  108  to the front portion  102 . As described above, the thumb portion  108  may include a stretchable, elongated inset  108   b . The inset  108   b  may be stitched to the thumb stall to form the thumb portion  108 , and the thumb portion  108  may be stitched to a cutout  110  in the front main section  102   a.    
     According to certain embodiments, the methods for making glove structures and/or components thereof may include providing means for securing the glove structure  100 . Means for securing the glove structure  100  proximate the user&#39;s wrist may include a closure system  130 . The closure system  130  may include one or more flaps, tabs, straps, ties, etc. Optionally, the closure system  130  may be supplied with hook and loop systems, snap systems, magnetic systems, buckles, zipper-like systems, elastic systems, buttons, etc. Further, means for securing the glove structure  100  may be provided on at least one of the front portion  102  and the back portion  120 . 
     According to some embodiments, at least some portions of flexible member  230  may be stitched to the knuckle support member  210 . Stitching may provide a durable and reliable attachment. According to other embodiments, the knuckle support member  210  may be over-molded to the flexible member  230 . Other injection molding, compression molding, pour molding, co-molding techniques, etc. may be used, depending upon the specific materials used to form the knuckle support member  210  and the flexible member  230 . Optionally, the knuckle support member  210  may be adhesive bonded to the flexible member  230 . Additionally, or alternatively, the knuckle support member  210  may be “fuse bonded” to the flexible member  230 , especially at the edges of the cutouts  212  and at the perimeter of the knuckle support member  210 . Over-molding and/or fuse bonding may be desirably processes as they are typically quicker and less expensive manufacturing techniques than stitching, while providing a flexible seam. 
     The term “fuse bonded” or “fused,” as used herein, means that the parts are bonded to one another by applying heat and pressure, by exposing to high frequency radiation and pressure, by exposing to radio frequency waves and pressure, by exposing to laser radiation and pressure, etc., and without the use of adhesives at least over a majority of the fused bonded portions. If desired, a small amount of adhesive may be used to tack the various parts in place with respect to one another prior to the fuse bonding step. The fuse bonding portions of this procedure may follow the procedure as generally described, for example, in U.S. Published Patent Applications US 2011/0088282 and US 2011/0088285, which applications are entirely incorporated herein by reference. 
     Materials suitable for over-molding (or other molding techniques, including pour molding, etc.) include thermoplastic elastomers (TPE). For example, TPU, nylon, polyesters, etc. may all provide suitable over-molding materials. Other materials such as rubbers, including for example a liquid silicone rubber (LSR), may also be suitable for the over-molding process. Over-molding with liquid silicone rubber may produce pliable, durable parts. 
     Similar materials may be suitable for fuse bonding. In order to optimize the fuse bonding process, the material of the flexible member  230  and the material of the knuckle support member  210  may be selected so that these materials readily fuse bond to one another without the need for an adhesive or cement between the layers (although, as noted above, some adhesive or cement may be used to maintain relative positioning of the parts before the fuse bonding step takes place). As some more specific examples, the knuckle support member  210  may be a silicone rubber material. Thicknesses of the knuckle support member  210 , particularly when it is formed of a silicone rubber, may range from 0.05 mm to 0.25 mm, and in some examples may be approximately 0.15 mm thick. The flexible member  230  may be formed from a material that will readily fuse bond with the material of the knuckle support member  210 . Optionally, the material of flexible member  230  may be coated or impregnated with a silicone rubber or other material compatible with a fuse bonding process. 
     According to certain embodiments, front portion  102  of the glove structure  100  may be constructed of a natural or synthetic leather material. Front portion  102  may be made from multiple pieces that are joined together or the front portion  102 , including the palm covering section  102   a  and the plurality of front finger sections  104  (optionally four front finger sections  104   a  through  104   d ) may be provided as a single piece of leather material. Further, the blank for the glove&#39;s front portion  102  may include portions of the thumb portion  108  and/or portions of some or all of the gusset members  140 . Back main portion  120   a  of the glove  100  may be cut out from a natural or synthetic leather material and formed from multiple pieces that are joined together or provided as a single piece. Similarly, back finger portions  122  may be cut out from the same natural or synthetic leather material. Cutting may be accomplished in any desired manner as known by person of skill in the art, including using die-cutting techniques, laser cutting techniques, manual cutting techniques, etc. 
     In certain embodiments, the knuckle support member  210  may be cut out from a desired support material supply, such as a silicone rubber or other flexible elastomeric sheet material. Knuckle support member  210  may be formed from multiple pieces that are joined together or provided as a single unitarily-constructed piece. 
     Similarly, the flexible member  230  may be cut out from a desired flexible member material supply, such as a LYCRA®, Spandex®, Dri-FIT®, etc. as described herein. Flexible member  230  may be formed from multiple pieces that are joined together or provided as a single unitarily-constructed piece. 
     In like fashion, gusset members  140  and/or the elongated thumb inset  108   b  may be cut out from a desired flexible member material supply, such as a LYCRA®, Spandex®, Dri-FIT®, etc., as described herein. As described above, gusset members  140  (or the elongated thumb inset  108   b ) may be formed from multiple pieces that are joined together or provided as a single unitarily-constructed piece. 
     Materials for the other parts, such as the closure system  130 , the edge piping  170 , and the elastic wrist components  116 , 126 , may be produced or obtained from any desired source, such as cut out from larger pieces of appropriate source materials. 
     Additional steps may be included in this procedure, additional parts may be included in the glove structure  100 , various steps may be combined, certain steps may be omitted, and/or the order of various steps may be changed without departing from this invention. 
     As described above, glove structures  100  incorporating the knuckle support assembly  200 , with its arrangement of the knuckle support member  210  in conjunction with the flexible member  230 , provide greater flexibility and comfort in the knuckle region(s), while still providing a good, tight, supporting fit. Other options are possible in gloves in accordance with examples of this invention. For example, the fingers of the glove structure need not include fingertips, i.e., one or more of the user&#39;s fingers may extend beyond the ends of the glove&#39;s fingers, as may be seen in some bicycle or weightlifting gloves. Further, if desired, alternative constructions may be used to form the front portion, if any, as would be known to persons of skill in the art. As examples, the front main section and the thumb portion may be formed from multiple panels with seams extending into the wrist region of the glove. In such case, the thumb portion may also be joined to the back portion. As another option, closure systems may be provided on the front portion of the glove or on both the front and back portions of the glove. As even other options, padding could be selectively provided in areas of the glove expected to see high pressures. 
     The various components may have any of the structures, arrangements, and/or orientations described herein (and/or any of the structures, arrangements, and/or orientations described in more detail below). Further, any desired order of steps is possible without departing from the invention. 
     CONCLUSION 
     The present invention is disclosed above and in the accompanymg drawings with reference to a variety of embodiments. The purpose served by the disclosure, however, is to provide examples of the various features and concepts related to the invention, not to limit the scope of the invention. One skilled in the relevant art will recognize that numerous variations and modifications may be made to the embodiments described herein without departing from the scope of the present invention, as defined by the appended claims.