Patent Grant
8973172
The present disclosure relates generally to noise reduction systems, and more particularly, to noise reduction systems for head wear.
Protective head wear has been used for thousands of years with such use being based on the idea of protecting a user's head from injury. The earliest forms of protective head wear were worn by military soldiers, who used such equipment to protect their heads against blows from various weapons, such as swords and arrows.
Although protective head wear is still used in modern military applications, other uses of protective head wear have evolved over the past several hundred years to include equipment for various recreational and civilian purposes, such as construction, mining, transportation, medical purposes, and sports. The use of protective head wear in sports has grown to be perhaps the most widespread, and includes sports such as American football, baseball, hockey, auto and motorcycle racing, rock climbing, lacrosse, skiing, equestrian sports, cricket, cycling, and other various types of sports.
The shape and size of protective head wear often times varies, and depends on the particular needs and circumstances of the purpose for which it will be applied. For example, a bicycle helmet may be designed to be well ventilated and aerodynamic, while a rock climbing helmet may be designed to be lightweight and less-bulky.
In some applications, an article of protective head wear, such as a helmet, includes a portion that covers and, in some cases, extends below the user's ear. Examples of this design include American football helmets, baseball helmets, and auto racing helmets.
Traditionally, the portion that covers the user's ear may include an aperture so that the user is still able to hear outside sound while wearing the helmet. In some cases, however, the portion that covers the user's ear is solid, and does not include an aperture near the ear; in this case the user may have trouble hearing outside sounds, if he or she is able to hear them at all.
Where the protective head wear includes an aperture near the user's ear, noise is able to enter into the user's ear, and in some cases may cause discomfort and hamper the user's ability to perform various functions. A sport in which this problem often arises is American football. American football helmets are traditionally designed with a portion of the helmet extending over and below the user's ear, and include an aperture near the user's ear. American football players often times experience confusion on the field due to crowd noise, which is able to enter through the above mentioned aperture.
In instances where a user may want to hear an outside sound, but where the protective head wear does not include an aperture near the user's ear, the user may have trouble hearing the sound.
The apparatuses described herein result from the realization that protective head wear may be fitted with equipment, such as a plate that fits over a user's ear and accommodates a noise reduction element, which allows the user to choose whether to block outside noise by inserting the noise reduction element, or to allow the noise to penetrate the protective head wear by removing the noise reduction element.
The apparatuses described herein result from the further realization that protective head wear may be manufactured with an aperture near the user's ear, which may accommodate a noise reduction element, which, in turn, allows the user to choose whether to block outside noise by inserting the noise reduction element, or to allow the noise to penetrate the protective head wear by removing the noise reduction element.
The apparatuses described herein result from the further realization that a noise reduction element may be provided to a user of protective head wear so that the user may insert the noise reduction element in an aperture of the protective head wear so as to block outside noise.
Mount plate 101 may be formed of any material with requisite stiffness to allow it to be mounted to a secondary surface. Such materials may include, but are not limited to, plastic, resin, metal, carbon fiber, and fiberglass.
In some embodiments, mount plate 101 may include at least one aperture 105, wherein noise reduction element 103 may be inserted. In other embodiments, aperture 105 may be a slot wherein noise reduction element 103 is inserted. Aperture 105 may be any shape, such as, but not limited to, a rectangle, a circle (as shown in
In further embodiments, mount plate 101 may include a means for mounting the mount plate to a secondary surface. Such a secondary surface may include, but is not limited to, the surface of an article of protective head wear, which may include, but is not limited to, the shell of a helmet. In one embodiment, the means for mounting the mount plate may include at least one aperture 107, through which the mount plate may be fastened to the secondary surface. The means for mounting the mount plate may include other means, such as, but not limited to, a buckle, a button, a magnet, a thread, a clip, a hooks-and-loops fastener, a zipper, glue, sticky tack, or any other means of holding two surfaces together.
In yet another embodiment, mount plate 101 may include an aperture 109, which allows an object located on the secondary surface to protrude through aperture 109. An exemplary embodiment may be a helmet which has a means for mounting a foreign object, such as a push button fastener, extending from the surface of the helmet. Such a fastener may be used for a variety of purposes, such as attaching a chin strap or a facemask, to the helmet. In such an embodiment, a user may want the fastener to extend through mount plate 101 so that it could be used to fasten to the foreign object to the helmet notwithstanding the fact that mount plate 101 is also connected to the helmet. Aperture 109 may allow the foreign object and mount plate 101 to be simultaneously connected to the secondary surface by allowing the secondary surface's means for mounting the foreign object to protrude through mount plate 101. Should it be the foreign object that has the means for mounting itself to the secondary surface, aperture 109 may allow for a similar result. In an alternate embodiment, mount plate 101 includes a means for mounting a foreign object (not shown). In yet another embodiment, the means for mounting a foreign object may be the same means for mounting the mount plate 101, e.g., the means for mounting the foreign object may also hold mount plate 101 in place.
In another embodiment, noise reduction element 103 is detachably connected to mount plate 101. Such detachability may be achieved by providing an aperture 105, such as a slot, in mount plate 101, wherein noise reduction element may be inserted. In some embodiments, noise reduction element 103 may be detachably connected via a fastener, such as, but not limited to, a buckle, a button, a magnet, a thread, a clip, a hooks-and-loops fastener, a zipper, glue, sticky tack, or any other means of attaching one object to another. Noise reduction element 103 may be of any shape, including, but not limited to, a square, rectangle, triangle, circle (as shown in
In another embodiment, noise reduction element 103 may be connected directly to an article of head wear, such as those embodiments described with reference to
In one embodiment, noise reduction element 103 comprises a frame 111 having framework, and a soundproofing element 113 covering the framework.
In a further embodiment, soundproofing element 113 may be a noise insulating material. In yet a further embodiment, soundproofing element 113 may be a soundproofing material, including, but not limited to, soundproofing foam, such as memory foam and acoustic foam, polystyrene foam, neoprene, or silicone. In another embodiment, soundproofing element 113 may be formed of a solid material, including, but not limited to, plastic, resin, metal, carbon fiber, wood, or fiberglass.
In another embodiment, noise reduction element 103 may include a noise cancellation unit, such as a noise cancellation device, which may employ technology similar to that used in noise cancellation headphones.
In some embodiments, noise reduction element 203 may be connected directly to an article of head wear, such as those embodiments described with reference to
In a further embodiment, soundproofing element 213 may be a noise insulating material. In yet a further embodiment, soundproofing element 213 may be a soundproofing material, including, but not limited to, soundproofing foam, such as memory foam and acoustic foam, polystyrene foam, neoprene, or silicone. In another embodiment, soundproofing element 113 may be formed of a solid material, including, but not limited to, plastic, resin, metal, carbon fiber, wood, or fiberglass.
In another embodiment, noise reduction element 203 may include a noise cancellation unit, such as a noise cancellation device, which may employ technology similar to that used in noise cancellation headphones.
Mount plate 201 may be formed of any material with requisite stiffness to allow it to be mounted to a secondary surface. Such materials may include, but are not limited to, plastic, resin, metal, carbon fiber, and fiberglass.
In some embodiments, aperture 205 may be a slot wherein the noise reduction element is inserted. Aperture 205 may be any shape, such as, but not limited to, a rectangle, a circle (as shown in
In further embodiments, mount plate 201 may include a means for mounting the mount plate to a secondary surface. Such a secondary surface may include, but is not limited to, the surface of an article of protective head wear, which may include, but is not limited to, the shell of a helmet. In one embodiment, the means for mounting the mount plate may include at least one aperture 207, through which the mount plate may be fastened to the secondary surface. The means for mounting the mount plate may include other means, such as, but not limited to, a buckle, a button, a magnet, a thread, a clip, a hooks-and-loops fastener, a zipper, glue, sticky tack, or any other means of holding two surfaces together.
In yet another embodiment, mount plate 201 may include an aperture 209, which allows an object located on the secondary surface to protrude through aperture 209. An exemplary embodiment may be a helmet which has a means for mounting a foreign object, such as a push button fastener, extending from the surface of the helmet. Such a fastener may be used for a variety of purposes, such as attaching a chin strap or a facemask, to the helmet. In such an embodiment, a user may want the fastener to extend through mount plate 201 so that it could be used to fasten to the foreign object to the helmet notwithstanding the fact that mount plate 201 is also connected to the helmet. Aperture 209 may allow the foreign object and mount plate 201 to be simultaneously connected to the secondary surface by allowing the secondary surface's means for mounting the foreign object to protrude through mount plate 201. Should it be the foreign object that has the means for mounting itself to the secondary surface, aperture 209 may allow for a similar result. In an alternate embodiment, mount plate 201 includes a means for mounting a foreign object (not shown). In yet another embodiment, the means for mounting a foreign object may be the same means for mounting the mount plate 201, e.g., the means for mounting the foreign object may also hold mount plate 201 in place.
In some embodiments, article 300 may be a helmet, such as, but not limited to, an American football helmet, baseball helmet, hockey helmet, auto or motorcycle racing helmet, rock climbing helmet, lacrosse helmet, skiing helmet, equestrian sports helmet, cricket helmet, cycling helmet, and military issue helmet, amongst others. In further embodiments, article 300, including shell 301, may be formed of a solid material, including, but not limited to, plastic, resin, metal, carbon fiber, wood, or fiberglass.
In some embodiments, a user of article 300 may insert their head through lower portion 305 and into upper portion 303, with the majority of their head being protected by upper portion 303.
In further embodiments, aperture 307 may allow outside noise or sound to enter article 300, thereby allowing a user of article 300 to hear the outside noise or sound. In some embodiments, aperture 307 may be positioned near the location where a user's ear may be located when using article 300. In certain cases, allowing the user of article 300 to hear outside noise may be desirable, such as in the sport of American football, where players often verbally communicate to each other, and thus need to hear each other through their helmets. On the other hand, there are times when players need to block out ambient noises in order to concentrate, such as during live games, where loud crowd noises may cause confusion.
In some embodiments, noise reduction plate 309 comprises a mount plate 311 and a noise reduction element 313 connected to mount plate 311. In one embodiment, noise reduction plate 309 is detachably connected to shell 301 of article 300. In another embodiment, noise reduction plate 309 is detachably connected to shell 301 of article 300 via at least one means 315 for connecting noise reduction plate 309 to shell 301. In one embodiment, the means 315 for connecting noise reduction plate 309 to shell 301 may include at least one aperture positioned on mount plate 311, through which mount plate 311 may be fastened to shell 301. In other embodiments, the means 315 for connecting noise reduction plate 309 may include other means, such as, but not limited to, a buckle, a button, a magnet, a thread, a clip, a hooks-and-loops fastener, a zipper, glue, sticky tack, or any other means of holding two surfaces together.
In some embodiments, article 300 may include additional equipment, such as a facemask 317, or a chinstrap (not shown). In one embodiment, the additional equipment may be attached to article 300 via a connecting means, such as a fastener 319, 321. In such an embodiment, a user may want the fastener to extend through noise reduction plate 309 so that it could be used to fasten the additional equipment to article 300 notwithstanding the fact that noise reduction plate 309 is also connected to article 300. In some embodiments, at least one aperture 323 may allow the additional equipment and noise reduction plate 309 to be simultaneously connected to article 300 by allowing the connecting means for connecting the additional equipment to protrude through noise reduction plate 309. In some embodiments, aperture 323 is located in mount plate 311. In an alternate embodiment, noise reduction plate 309 includes a means for connecting the additional equipment (not shown). In yet another embodiment, the means for connecting the additional equipment may be the same means for connecting noise reduction plate 309 to article 300.
In some embodiments, noise reduction element 409 may be of any shape, including, but not limited to, a square, rectangle, triangle, circle (as shown in
In a further embodiment, noise reduction element 409 may include soundproofing element 411. In some embodiments, soundproofing element 411 may be a noise insulating material. In yet a further embodiment, soundproofing element 411 may be a soundproofing material, including, but not limited to, soundproofing foam, such as memory foam and acoustic foam, polystyrene foam, neoprene, or silicone. In another embodiment, soundproofing element 411 may be formed of a solid material, including, but not limited to, plastic, resin, metal, carbon fiber, wood, or fiberglass.
In another embodiment, noise reduction element 409 may include a noise cancellation unit, such as a noise cancellation device, which may employ technology similar to that used in noise cancellation headphones.
While the principles of the disclosure have been described herein, it is to be understood by those skilled in the art that this description is made only by way of example and not as a limitation as to the scope of the disclosure. Other embodiments are contemplated within the scope of the present disclosure in addition to the exemplary embodiments shown and described herein. Modifications and substitutions by one of ordinary skill in the art are considered to be within the scope of the present disclosure.
The present application claims priority to, and is a Continuation in Part of U.S. Design Patent Application, application Ser. No. 29/316,491, titled “Noise Shield”, filed Oct. 2, 2009 now U.S. Pat. No. Des. 633,658. The entire disclosure of said Design Patent Application is incorporated herein by reference.
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| Number | Date | Country | |
|---|---|---|---|
| 20110078844 A1 | Apr 2011 | US |
| Number | Date | Country | |
|---|---|---|---|
| Parent | 29316491 | Oct 2009 | US |
| Child | 12610917 | US |
