Soft athletic helmet and rear closure mechanism

Information

  • Patent Grant
  • 11771166
  • Patent Number
    11,771,166
  • Date Filed
    Friday, October 14, 2022
    2 years ago
  • Date Issued
    Tuesday, October 3, 2023
    a year ago
Abstract
A protective headgear having a protective outer layer, an inner impact dispersing layer, an opening in the posterior of the helmet to allow hair to exit the protective helmet, and juxtaposed to the posterior opening, a flap that covers a portion of the opening and is selectively attachable to the inner impact attenuating layer.
Description
FIELD OF INVENTION

The present application is generally related to soft athletic helmets and closure mechanisms for the same, specifically, closure mechanisms at the rear portion of the helmet for securing the hair of the user.


BACKGROUND OF THE INVENTION

Athletic competition continues to evolve where athletes are faster and stronger, and thus athletes face greater risk of injury due to their own strength, the strength of their competition, and the ability to throw a ball with greater force than ever before. This evolution is present for both men and women, yet the protection provided to female athletes is not commensurate in protection to those afforded to male counterparts.


Women's athletics continue to evolve at a rapid pace from mostly noncontact sports to sports that show few, if any, differences from the male version of the game. This is especially evident in several field sports, including lacrosse and field hockey, where today, women's lacrosse and women's field hockey continue to evolve to include additional physical contact, whether explicitly allowed by the rules, or simply by virtue of evolution of the game and the speed and skill of those playing.


However, both women's lacrosse and women's field hockey have typically eschewed the use of face protection or helmets because of the fact that the sports, by rule, do not allow physical contact on the field. However, the current state of the game reveals that today, athletes, coaches, and parents of young athletes understand that physical contact is inevitable and that young athletes, in particular, are highly susceptible to head injuries while playing in organized sports. Specifically, there is an increased awareness of the danger and frequency of concussion in organized sport. Furthermore, modern research and studies have identified that repeated concussions may have a significant and long term effect on athletes, including the development of chronic traumatic encephalopathy, which is a degenerative disease highly correlated to those individuals who have suffered from repeated head injuries.


While women's lacrosse and field hockey have been slow to adapt the use of helmets on the field, there appears to be momentum toward adopting rules and regulations regarding the use of helmets in competition. Therefore, the use of helmets seems like a natural, if not inevitable, component of the uniform for participation.


The initial proposals for women's helmets specify the use of a soft shelled and flexible helmet and eschews the use of the hard-shelled helmets used in sports such as American Football, or in men's lacrosse. The argument is that women's lacrosse remains a noncontact sport and checking or hitting of another player remains prohibited by rule. Therefore, without the need to use the heavy, bulky, and rigid helmets from men's sports, the proposed helmets will be less bulky and prevent loss of the dexterity and speed. However, the governing bodies remain interested in providing a helmet that will provide protection in the form of a soft/flexible helmet and which provides for substantial protection to the eyes, face, and head of athletes.


Accordingly, because of incidental physical contact and also direct contact with a stick or ball, there is a need for sport specific head protection, eye protection, and protection of the face of female athletes. Therefore, there is a real and present need to improve safety for athletes in these sports, specifically by providing for sport appropriate head gear.


SUMMARY OF THE INVENTION

The embodiments herein provide for a new protective headgear having a protective and compressible outer layer, an inner noncompressible layer, an opening in the posterior/rear of the helmet to allow hair to exit the protective helmet, and juxtaposed to the posterior opening, a flap attached to the outer layer that covers a portion of the opening and is selectively attachable to the inner impact attenuating layer.


A soft helmet comprising an inner core and an outer shell, wherein the inner core comprises impact absorbing materials and a harness, wherein the outer shell comprises a posterior flap component having a flexible hingeable point on one end and provides for a selective attachment point to secure the portion obverse from the hingeable point, for protection of the rear of the head while providing for an opening for hair of the individual.


In a further embodiment, a soft helmet comprises an inner core and an outer shell, wherein the inner core comprises impact absorbing components and a harness and a posterior latch, and wherein the outer shell is made of a flexible, impact absorbing material and engages to and around the inner core, wherein a posterior flap is hingeably connected on one side of the outer shell and the obverse side of the flap comprises a corresponding snap to secure to the posterior latch on the inner core.


In a further embodiment, a protective headgear comprising: a protective impact absorbing outer layer; an inner impact attenuating layer; an opening in the posterior of the helmet to allow hair to exit the protective helmet; and wherein the posterior opening has a flap that covers a portion of the opening.


In a further embodiment, a protective headgear comprising: an elastomeric protective outer layer; an inner molded polymer shell; an inner impact attenuating layer; an opening in the posterior of the helmet to allow hair to exit the protective helmet; and wherein the posterior opening has a flap that covers with the outer elastomeric and inner molded polymer shell a portion of the opening.


A protective headgear comprising: a protective outer layer; an inner impact dispersing layer; a plurality of impact attenuating pads attached to the inner impact dispersing layer; a posterior opening in the outer protective later and in the inner impact dispersing layer; and wherein the posterior opening has a flap that covers a portion of the opening; wherein said flap has one side hingeably attached to the protective outer layer and an attachment means on the end of the flap to attach to the inner impact dispersing layer on the other side of the opening. In certain embodiments, the outer material is made from an elastomeric foam material, a molded polymer material, or a closed or open cell foam, each suitable to compress and return to its original shape. By comparison, the inner impact dispersing material is made from a semirigid material noncompressible material. The protective headgear comprises a rear flap that closes horizontally and can be opened and closed by the user while the headgear is donned.


A protective headgear comprising: a compressible protective outer layer having a front, two sides, a crown, a rear, a rear flap, a top and a bottom, said rear comprising a rear opening extending from the bottom to an intermediate position between the crown and the bottom; a noncompressible inner polymer shell having an outer face secured to the compressible protective outer layer, and an inner face having a front, sides and rear; an opening corresponding to the rear opening in the compressible protective outer layer; and comprising a left and right support positioned within said opening; at least one compressible pad attached to the inner polymer shell; the flap hingeably attached to one side of the rear of the compressible protective outer layer, having attached thereto, a flap core having a length sufficient to extend beyond the left and right supports of the inner core; and an attachment means suitable to connect said flap to an inner support of said inner core; and a rear securing strap having opposing ends connected to a portion of the inner support, and extending toward the rear and below the bottom of the helmet, and comprising a closure means to selectively tighten said rear strap.


In certain embodiments, the headgear comprises at least six compressible pads; wherein a first pad is positioned at the front of the inner core; a second pad is attached to the crown of the inner core; a third and fourth compressible pads attached to the left and right supports; and a fifth and sixth compressible pads attached to the sides of the inner core. In certain embodiments, at least one of the pads comprises a membrane having an opening therein and covering at least one type of compressible pad therein.


In a further embodiment, a helmet comprising: a compressible outer impact attenuating material having a rear flap; an inner noncompressible impact dispersing core, having a top a bottom, a crown, a rear, two sides, an inner surface, and, an outer surface that is in substantial contact with the compressible outer impact attenuating material; wherein a rear opening is provided in both the inner impact attenuating core and in the corresponding same space in the outer impact attenuating material, said opening extending from the bottom to a position between the crown and the bottom; means to secure the helmet under the chin of a user and around the occipital bone at the rear; wherein, disposed of on the interior surface of the inner impact dispersing core are compressible pads for attenuating forces; and the rear flap covering the opening at the rear of the helmet, the flap being hingeably attached to the outer impact attenuating material on one end, and having an attachment means at an opposing end of the rear flap to attach the rear flap to the inner core.


The embodiments preferably comprise a chin strap; wherein each end of the chin strap is secured to opposing sides of the inner core and comprising attachment means to secure the chin strap together.


The embodiments preferable comprise a rear securing strap having opposing ends connected to a portion of the inner support and extending toward the rear and below the bottom of the helmet, and comprising a closure means to selectively tighten said rear strap.





BRIEF DESCRIPTION OF THE FIGURES


FIG. 1 depicts the rear portion of a soft helmet showing the outer shell and inner core.



FIG. 2 depicts a detailed image of the rear latching component in an open position.



FIG. 3 depicts the rear of a soft helmet showing the rear latching component in a closed position.



FIG. 4 depicts the outer shell on the left and the inner core on the right.



FIG. 5 depicts a rear view of a helmet as worn by an individual.



FIG. 6 depicts a rear view of a helmet as worn by an individual.



FIG. 7 depicts a view of the inside of a helmet.



FIG. 8 depicts a further view of the inside of a helmet.



FIG. 9 depicts a further view of the inside of a helmet.





DETAILED DESCRIPTION OF THE INVENTION

The embodiments of the invention described herein provide for a new soft helmet comprising an outer shell (1) and an inner core (20), wherein the inner core and outer shell comprise a rear flap (7) and latching mechanism at the back of the helmet. The need for the rear latching mechanism is twofold. First, there is no current helmet that provides for a mechanism to secure a ponytail or otherwise hair in the rear of the helmet. This is often highly important for women, so as to secure hair so it is not in the way while participating. And second, a more pressing reason for the need to have a flap and latching mechanism is that the helmet must also pass certain safety tests, which include a pressure test positioned at the rear portion of the helmet.


Applicants designed several helmets and tested these against standard testing practices to confirm that the soft helmets would pass the necessary impact tests. However, a unibody construction that did not include the rear latching mechanism, failed the rear impact test (testing e.g. a ball hitting the helmet at high speed). By incorporating a two piece construction, an inner core, an outer shell, and incorporating a latching mechanism for a rear positioned flap, the helmet advantageously disperses impacts to the top, side, front, and rear of the helmet, to pass standards set in the industry for helmet protection.



FIG. 1 provides a depiction of a soft helmet having a protective outer shell (protective outer layer) (1), and an inner impact attenuating layer (or inner core) (20), wherein the inner core (20) in FIG. 1 depicts the left rear support (4) and the right rear support (6). The inner core (20) is an impact dispersing layer made of a stiff material that is not completely rigid but is not as flexible or pliable as the material of the outer shell (1). The goal of the stiff material is to create support to allow for forces to be spread through the entirety of the helmet, thus dissipating the forces at the spot of impact. The material is properly made of a plastic or polymer material that provides for these features and also to support the outer shell (1). In certain embodiments, the inner core is a noncompressible material.


In comparison to the inner core (20), the outer shell (1) is a soft, compressible material having impact attenuating properties. The outer shell is appropriately made of an open cell or closed cell material, that can be compressed and return to substantially its original shape after impact. Certain low density open cell foams are appropriate, however, some closed cell foams, and those of a medium or high density may be appropriate in certain instances. In other embodiments, the outer shell (1) is an outer protective layer made of an elastomeric material. Indeed, the outer shell material is comprised of any of several compressible or flexible foam or foam like materials that provide impact attenuation and that return to their original shape after impact. The compression aids in the reduction of forces, as is known to a person of ordinary skill in the art. Force is directly reduced by the increase in time to impact, such that the more something compresses, the greater reduction in force is possible.


The outer shell and inner core are a generally domed shape with a crown, a rear, two sides, and a front. At the front, in certain embodiments, is a protruded lip or a visor like feature. However, the dome shape provides for a fit over the head of a user to expand the shells to the forehead of a user, adjacent to the ears, and at the rear, base, to just above the occipital bone.


The outer shell (1) fits tightly over the inner core (20) and when paired together, the helmet retains some flexibility. The flexibility is due, in part, to the inner shell opening (5), which allows for the left and right supports (4 and 6) so move and also to the material itself, having some ability to flex or give when the helmet itself is compressed. Therefore, the helmet can be compressed to some extent and is not rigid, in direct contrast to an American football style helmet that is both rigid and does not compress. In certain embodiments, the outer shell (1) and inner core (20) are glued together. In other embodiments, the two components may be adhered together by a glue or adhesive, hook-and-loop material, snap type connectors, and the like. Alternatively, the two components may be secured only by a tight fit and friction.


The outer shell (1) comprises a rear flap (7) having a hingeable portion (30) connected to the outer shell (1) and a snap (18) at the end of the rear flap that secures to a corresponding snap (3) positioned on the left rear support (4) of the inner core (20). The manner in which this is disposed, allows for the rear flap core (11) material disposed of in the interior surface of the rear flap (7) to extend beyond the inner shell opening (5) and over each of the left and right supports. This effectively provides for a portion of the inner core (20) material to cover the inner shell opening (5). Because of the inner core opening (5) and the rear opening (2) above the rear flap (7), an individual can pull hair through the openings and comfortably seat the helmet on her head.


The design of the inner core (20) provides for the inner core opening (5) to be positioned at the rear of the head, wherein the inner core opening (5) is poisoned to allow a sufficient opening at the base of the rear of the head so that a ponytail (40) can pass through the inner core opening (5). This opening extends from the base to about halfway up the rear of the helmet toward the crown. Furthermore, the inner core opening (5) is designed to allow the rear left support (4) and the rear right support (6) to independently move. This, in turn, provides that the helmet can expand or be compressed slightly to improve the fit around the head of the individual user. Furthermore, forces applied to one side of the helmet, or to the rear of the helmet are dissipated through the moveable supports, the foam on the outer shell, the internal harness, and any additional internal shock absorbing materials. In particular, forces applied to the rear flap (7), i.e. a ball, stick, or person hitting that position, will allow the forces to dissipate through the outer shell and then through the independently movable supports on the left and right, thus limiting the force applied at this point to the head of the person wearing the helmet.



FIG. 2 provides a further detail of the rear flap (7), depicting that at the hingeable part (30), the rear flap (7) is not connected to the right rear support (6). The majority of the inner core (20) is in direct contact with the outer shell (1), such that the two components are selectively attached to one another, except for the rear flap (7). Indeed, this allows the rear flap (7) and the inner core (20) to independently move and allows for forces to move through the outer shell (1) and through each of the left and right sides of the inner core (20). Therefore the rear flap (7) can be independently fastened or unfastened while the helmet is worn by a user. This allows a user to adjust their hair in and through the rear opening (2) as necessary for fit.


Further depicted on the inner face of the rear flap (7) is a rear flap core (11). The rear flap core (11) is composed of the same or a similar material as the inner core (20) and is positioned to provide a rigid support to the rear flap (7). The snap (3), is visible on the left rear support (4) and will be utilized to selectively secure the rear flap (7), which has a corresponding snap feature (18) on the inner portion of the rear flap (7). By attaching the flap with attachment means, the rear flap core will cover the opening (5), and thus protects the rear of the head adjacent to the occipital bone.



FIG. 3 depicts the rear flap (7) having attachment means, here as depicted secured to the snap (3). By snapping the rear flap (7) to the rear left support (4) of the inner core (20), the outer shell (1) is secured around the player's head. The snap (3), in certain embodiments is attached to the inner core (20) on a slideable mechanism, such that the precise position of the snap (3) can be modified for appropriate fit. Conversely, the corresponding snap (18) can be moveable on the rear flap (7). In other embodiments, the snap can be positioned in one or more predrilled holes, so as to provide for a moveable fit. Accordingly, attachment means known to those of ordinary skill in the art can be utilized to secure the rear flap (7) to the left support (4) through snaps, peg and hole, buckle, hook-and-loop, string tie, and the like.



FIG. 4 depicts on the left, the outer foam shell (1), with the rear flap (7). On the right, is depicted the inner core (20), having the rear opening (5) between the left and right rear supports (4 and 6), with a snap (3) on the left rear support. The position of the snap can be exchanged to the left or the right support, so long as the outer shell and rear latch (7) correspond to pair with its position.


Also depicted in FIG. 4 are closure straps (21) and an occipital dial (22) for tightening and loosening the closure straps (21). The closure straps (21) are attached to the inner core (20) at opposite sides adjacent to the ear. The occipital dial (22) is positioned at the rear of the helmet and covered by a closure foam material (17) on the inside of the dial (see FIG. 7). In further embodiments, the occipital dial (22) may be advantageously positioned to the side of the helmet, so as position the dial within the outer shell or away from the neck. The closure foam material (17) is preferably an open cell, low density style foam to attenuate any hit to the occipital dial (22), but also for comfort in positioning and securing the helmet. This material may be the same as the foam for the forehead pad (9) and crown foam (10), as one example. The specific thickness can be modified by the user for comfort, increased compression, and sizing.


The occipital dial (22) allows the user to adjust the size of the helmet around the rear of the helmet. The occipital dial (22) comprises a rotatable disc that is connected to the closure straps on each side of the helmet, wherein rotating the disk will tighten or relax the fit. The rotatable disc can also utilize wire or string to tighten or relax the fit. In other embodiments, the mechanism to adjust the size of the helmed can be adjusted by other closure means, including, but not limited to snaps, hook-and-loop material, screw, rotation disk, or with adjustable straps and buckles as are known to one of ordinary skill in the art.



FIG. 5 further depicts the occipital dial (22) at the base of the helmet. Rotation of the occipital dial (22) tightens the straps to create the proper fit of the harness to the head. The ponytail is shown clearly extending through the rear opening (2) hole with the flap (7) secured below the ponytail and securing the helmet to the user's head. FIG. 6 provides a further image of hair extending out of the hole in the helmet and the flap (7) secured in position.



FIG. 7 depicts a view of the inside of a helmet. The outer shell (1) is surrounding an inner core (20). At the far right of the image, the outer shell (1) comprises a hat or visor portion (8), which is a slightly protruding piece of the outer shell (1) foam. Directly inside of the hat portion (8) and attached to the inner shell (20) at, what would be the forehead section, is a forehead pad (9). This padding is preferably a compressible foam made of an ordinary low density open cell type foam, known to one of ordinary skill in the art. Positioned at the interior crown of the helmet is a crown foam (10). Positioned near the ears, and also at the rear left and right are four compression pads (13, 14, 15, and 16). These compression pads provide for an improved fit for the helmet as well as improving the abilities of the helmet to disperse forces. The precise thickness of the foam and the specific location can be determined by one of ordinary skill in the art. Additionally, the helmet may comprise more than the six listed pads, including extra pads in the crown, at the temple, or positioned along the internal sides of the helmet. Suitable compression pads include open and closed cell foams or polymer materials as known to a person of ordinary skill in the art.


Specific embodiments utilize compressible pads that comprise at least one type of compressible material surrounded by a membrane. The membrane has at least one hole to allow for air to enter and be compressed out of the membrane. For example, a particular brand of compression pad is a CRASH CLOUD™ pad, which comprises at least two types of foam material covered by a plastic membrane.



FIG. 7 also depicts a chin strap (12A and 12B), wherein a strap is connected to each side of the helmet at or adjacent to the ear, and then connects under the chin of a user with an ordinary securing mechanism. Appropriate modifications to loosen or tighten the straps provides for a secure fit under the chin of the user.



FIG. 7 further defines a pair of rear closure straps (21). The rear closure straps (21) are connected to the inner core (20), for example adjacent to the ear (23). The rear closure straps (21) serve to secure the helmet to the head of the user, by incorporating a strap that sits at the rear of the head adjacent to the occipital bone. By placing the helmet on a user's head, the user can adjust the fit of the helmet by loosening or tightening these closure straps (21). In a preferred embodiment, an occipital dial (22) is utilized and positioned at the rear of the helmet, and the occipital dial (22) can be rotated to tighten or loosen the closure straps (21). In combination with the closure straps (21) around the rear of the helmet, by adjusting the occipital dial (22) and providing the appropriate level of closure foam material (17), the helmet is properly secured to a user's head. The closure foam material (17) further assists in protecting the rear of the head from contact.


Additional closure mechanisms may include a ring fit, variations of exchangeable pads having different thicknesses, for a pad fit, cam locks or various straps, snaps, hook-and-loop material, and the like. Many of these closure and securing mechanisms are in use or have been used in the bicycle helmet industry. The closure mechanism, whichever is utilized, assists in securing the closure straps (21) to create a snug fit around the rear of the head of the user.



FIG. 8 depicts a bottom side profile of the helmet, again depicting the features from FIG. 7.



FIG. 9 depicts a rear profile of the helmet. In particular, the rear flap (7) is pulled away from the helmet and a rear flap core (11) is depicted attached to the rear flap. Also depicted on the inner portion of the rear flap (7) is the corresponding snap feature (18) to pair with the snap (3) on the inner core (20). The occipital dial (22) and the closure foam material (17) are also clearly depicted.


The ability of the flap (7) to be affixed to the inner core (20) provides a secure connection, provides for an adjustable opening for the player based on head size, provides an opening for the hair of the user, and provides an important feature for disseminating forces applied to the rear portion of the helmet. Indeed, contact with the rear portion of the helmet will first hit the soft outer shell (1), which will compress, due to the structure of the foam. The rear flap core (11) will then protect the shell opening (5) and forces will disseminate to the inner core (20) and to the left and right rear supports (4 and 6). This will then allow the inner shell (20) to slightly compress, as the left rear support (4) and the right rear support (6) can flex to slightly narrow this shell opening (5). Furthermore, these features can move independently thus allowing forces to be dispersed throughout the helmet and not concentrated on a single point. This aids in disseminating the forces applied to the rear of the helmet and assists in preventing injury should a direct force be applied to that portion of the helmet. Ultimately, the forces are applied to the compression pads (15, 16, 13, 14, as well as 9, 10, and 17). The force compresses these pads, and the compression reduces the forces ultimately applied to the head. Together, the components of the helmet work together to reduce the forces as applied to a point on the helmet.


In addition to the safety profile of the rear flap (7), a further benefit of the rear flap (7) is the ease of which the player can undo the rear flap (7) and pull the player's hair through the shell opening (5) and the rear opening (2). This provides for the easiest way to allow a user to comfortably orient their hair and also to securely and comfortably position the helmet to the user's head. In other helmets, there is no ability to open a latch, and so hair must be pulled through an opening. This can often lead to uncomfortable pulling of the hair, or worse, lead to unsafe positioning of the helmet. The use of a sport specific helmet, having an opening designed for safety and fit, and with the particular female user, or male user with long hair in mind, improves the ability of the helmet to securely fit and to maintain the proper fit throughout use. Proper fit and orientation of hair thus leads to a more secure and safe helmet.


Furthermore, there are no other soft helmets that utilize a rigid inner core that comprises a rear opening (5), followed by a compressible exterior foam shell that is positioned over and around the inner core, and that comprises a flap system that latches to one side of the inner core. Such system provides for an improved fit, greater comfort for the user, and provides for a safe and effective manner to secure the helmet for the user.


Accordingly, in preferred embodiments, the helmet comprises a compressible outer impact attenuating material, an inner impact dispersing core that is stiff; wherein an opening is provided in the rear portion of both the inner impact dispersing core and in the corresponding same space in the outer impact attenuating material. Furthermore, provided is a first means to secure the helmet under the chin of a user and a second means to secure the helmet around the occipital bone. Disposed of on the interior surface of the inner impact dispersing core are compressible pads for attenuating forces. Finally, covering the opening at the rear of the helmet is a rear flap, hingeably attached to the outer impact attenuating material, and having an attachment means at the end of the rear flap to attach the rear flap to the inner core.


A preferred embodiment of the helmet comprises an outer core, an inner core, a plurality of compression pads, a rear securing strap, a chin strap, and a rear flap; the outer core being a compressible material and attached to an outer face of the inner core; the inner core is a semirigid material; the compression pads are positioned on an inner face of the inner core and positioned at least at the front, sides, top, and rear of the inner face of the inner core; the chin strap comprises at least a length of material connected to the inner or outer core on each side of the helmet, and comprising an attachment means to be secured together; the rear securing strap comprising a first and second length of material; each connected on opposing inner faces of the inner core; and comprising an adjustable mechanism capable of adjusting the length of the rear securing strap; and the rear flap comprises an outer flap core and an inner flap core and is positioned over an opening at the rear of the outer core and inner core.


A helmet having an outer core, an inner core, a plurality of compression pads, a chin strap, a rear securing strap, and a rear flap; the outer core having an inner and outer face and having a domed shape with a plurality of openings in the dome and a rear flap hingeably attached to one side of the outer core; the inner core having an inner and outer face with the outer face being secured to the inner face of the outer core; and attached to the inner face of the inner core are a plurality of compression pads; a chin strap, having an attachment point on each side of the inner core; and a rear securing strap, having an attachment point on each side of the inner core; attachment means for connecting the chin strap and second attachment means for connecting the rear securing strap; and the rear flap comprising an attachment means to secure to said inner core and a rear flap core positioned on the inner face of the rear flap.

Claims
  • 1. A protective headgear comprising: a protective outer layer having a front, two sides, a crown, a rear, a rear flap, a top, and a bottom;an inner impact dispersing layer having an outer face secured to the protective outer layer, and an inner face having a front, sides, and a rear, an opening extending from the bottom to an intermediate position between the crown and the bottom and comprising an inner left support and an right support within said opening;a plurality of impact attenuating pads attached to the inner impact dispersing layer; anda posterior opening in the outer protective layer, said posterior opening aligning with at least a portion of the opening on the inner impact dispersing layer.
  • 2. The protective headgear of claim 1 wherein the outer protective layer is made from an elastomeric foam material.
  • 3. The protective headgear of claim 1 wherein the outer protective layer is made from a molded polymer material.
  • 4. The protective headgear of claim 1 wherein the inner impact dispersing layer is made from a semi-rigid material.
  • 5. The protective headgear of claim 1 wherein said protective headgear comprises an occipital securing strap.
  • 6. The protective headgear of claim 1 comprising at least six compressible pads; wherein a first pad is positioned at the front of the inner impact dispersing layer; a second pad is attached to the crown of the inner impact dispersing layer; third and fourth compressible pads are attached to the left and right supports; and fifth and sixth compressible pads are attached to the inner impact dispersing layer sides.
  • 7. The protective headgear of claim 6 wherein at least one of the compressible pads comprises a membrane having an opening therein and covering at least one type of compressible pad therein.
  • 8. A helmet comprising: a compressible outer impact attenuating material;an inner noncompressible impact dispersing core having a top, a bottom, a crown, a rear, two sides, an inner surface, and an outer surface that is in substantial contact with the compressible outer impact attenuating material;wherein a first rear opening is provided in the inner noncompressible impact dispersing core, and a second rear opening in the outer impact attenuating material, said first rear opening in the inner noncompressible impact dispersing core extending from the bottom to an intermediate position between the crown and the bottom; said second rear opening aligning with at least a portion of the first rear opening;securing means to secure the helmet under the chin of a user and a rear securing strap having opposing ends connected to an opposing side of said first rear opening and extending toward the rear and below a bottom of the helmet and comprising a closure means to selectively tighten said rear securing strap to adjust the fit of said helmet around an occipital bone at the rear of said user;wherein disposed of on the inner surface of the inner noncompressible impact dispersing core are compressible pads for attenuating forces.
  • 9. The helmet of claim 8 wherein the securing means is a chin strap; wherein said chin strap comprises a first end and a second end, said first end attached to one side of the inner noncompressible impact dispersing core, and said second end attached to an opposing side of said inner noncompressible impact dispersing core; said chin strap comprising attachment means to secure the chin strap together.
  • 10. The helmet of claim 8 wherein the compressible outer impact attenuating material is made from an elastomeric foam material.
  • 11. The helmet of claim 8 wherein the inner noncompressible impact dispersing core is made from a semirigid material.
  • 12. The helmet of claim 8 comprising at least six compressible pads; wherein a first pad is positioned at a front of the inner noncompressible impact dispersing core; a second pad is attached to the crown of the inner noncompressible impact dispersing core; third and fourth compressible pads are attached to an opposing side of said first rear opening; and fifth and sixth compressible pads are attached to the two sides of the inner noncompressible impact dispersing core.
  • 13. The helmet of claim 8 wherein at least one of the compressible pads comprises a membrane having an opening therein.
CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No. 16/693,572, filed Nov. 25, 2019 which is a divisional of U.S. patent application Ser. No. 15/589,351, filed May 8, 2017, which claims the benefit of U.S. Provisional Patent Application No. 62/332,913, filed May 6, 2016, the contents of which are hereby incorporated by reference in their entirety.

US Referenced Citations (88)
Number Name Date Kind
2140716 Pryale Dec 1938 A
2908943 Miller Oct 1959 A
3818508 Lammers et al. Jun 1974 A
3866243 Morgan Feb 1975 A
3870841 Makowski et al. Mar 1975 A
4477929 Mattsson Oct 1984 A
4621940 Anderson Nov 1986 A
4754501 Yahn Jul 1988 A
4808469 Hiles Feb 1989 A
4845786 Chiarella Jul 1989 A
4853980 Zarotti Aug 1989 A
5010598 Flynn et al. Apr 1991 A
5056162 Tirums Oct 1991 A
5088130 Chiarella Feb 1992 A
5150479 Oleson Sep 1992 A
5177815 Andujar Jan 1993 A
5272773 Kamata Jan 1993 A
5309576 Broersma May 1994 A
5361420 Dobbs et al. Nov 1994 A
5412810 Taniuchi May 1995 A
5477563 Gentes et al. Dec 1995 A
5517698 Nault et al. May 1996 A
5535454 Ryan Jul 1996 A
5598588 Lee Feb 1997 A
5603117 Hudner, Jr. et al. Feb 1997 A
5655227 Sundberg et al. Aug 1997 A
D387501 Cheng Dec 1997 S
5713082 Bassette et al. Feb 1998 A
5745923 Katz May 1998 A
5790988 Guadagnino, Jr. et al. Aug 1998 A
5887289 Theoret Mar 1999 A
5930841 Lampe et al. Aug 1999 A
5950244 Fournier et al. Sep 1999 A
D424246 Ho May 2000 S
6065159 Hirsh May 2000 A
6070271 Williams Jun 2000 A
6108825 Bell et al. Aug 2000 A
6389607 Wood May 2002 B1
6453477 Bainbridge et al. Sep 2002 B1
D464174 Lu Oct 2002 S
6665884 Demps Dec 2003 B1
6715153 Mitsuhashi Apr 2004 B2
6986168 Abelman Jan 2006 B2
7058989 Domingos Jun 2006 B2
7103923 Picotte Sep 2006 B2
7152253 Abelman et al. Dec 2006 B2
D535059 Lam Jan 2007 S
D577458 Chan et al. Sep 2008 S
7765622 Wiles Aug 2010 B2
7832023 Crisco Nov 2010 B2
8191179 Durocher et al. Jun 2012 B2
8256032 Muskovitz Sep 2012 B2
D669225 Woxing et al. Oct 2012 S
8296868 Belanger et al. Oct 2012 B2
D671272 Clement Nov 2012 S
D683904 Ho Jun 2013 S
D683905 Wills Jun 2013 S
8484762 Goldstein Jul 2013 B2
8613114 Olivares Velasco Dec 2013 B1
8640267 Cohen Feb 2014 B1
D700746 Capozzi et al. Mar 2014 S
8763166 Olivares Velasco Jul 2014 B1
8832870 Belanger et al. Sep 2014 B2
8997265 Olivares Velasco Apr 2015 B2
D745744 Saam Dec 2015 S
D752294 Chilson et al. Mar 2016 S
D752814 Chilson et al. Mar 2016 S
D759899 Finiel Jun 2016 S
D773120 Storey et al. Nov 2016 S
D776357 Marting Jan 2017 S
10531698 Stolker Jan 2020 B2
11470905 Stolker Oct 2022 B2
20040154080 Abelman et al. Aug 2004 A1
20040209744 Tsujimoto Oct 2004 A1
20040250340 Piper et al. Dec 2004 A1
20050204456 Piper et al. Sep 2005 A1
20060000009 Fleming Jan 2006 A1
20060206976 Futch Sep 2006 A1
20110225706 Pye Sep 2011 A1
20120047636 Fehmel et al. Mar 2012 A1
20120233746 Jwa Sep 2012 A1
20120317705 Lindsay Dec 2012 A1
20130025031 Laperrière et al. Jan 2013 A1
20130036531 Belanger et al. Feb 2013 A1
20130174329 Hanson et al. Jul 2013 A1
20140007324 Svehaug Jan 2014 A1
20140096312 Vito Apr 2014 A1
20150320134 Stolker Nov 2015 A1
Foreign Referenced Citations (3)
Number Date Country
2746897 Apr 1979 DE
2294659 Jul 1976 FR
WO2011149895 Dec 2011 WO
Non-Patent Literature Citations (2)
Entry
http://www.rehabmart.com/category/Protective_Helmets.hmt, retrieved Aug. 28, 2015.
http://www.gamebreaker.com/, retrieved Sep. 8, 2015.
Related Publications (1)
Number Date Country
20230066408 A1 Mar 2023 US
Provisional Applications (1)
Number Date Country
62332913 May 2016 US
Divisions (1)
Number Date Country
Parent 15589351 May 2017 US
Child 16693572 US
Continuations (1)
Number Date Country
Parent 16693572 Nov 2019 US
Child 18046844 US