ADJUSTABLE HELMET CHINSTRAP
Presently disclosed embodiments provide a safe and easy way for a child, or other wearer, to independently tighten or loosen the chinstrap on his or her helmet while it remains buckled on his or her head. Disclosed embodiments comprise a knob attached to a side of the chinstrap webbing. The knob is an adjustment mechanism used to loosen or tighten the helmet chinstrap. After the wearer, possibly a child, buckles the helmet chinstrap below his or her chin, the wearer can reach up and twist the knob to loosen or tighten the chinstrap to achieve the proper fit. In some embodiments, each knob may have a cord or the like affixed at one end to an interior assembly and affixed at another end to the chinstrap material. In operation, the chinstrap may be buckled under the chin, and then the knob may be rotated forward, the attached cord is shortened and, thus, the chinstrap may be tightened. In some embodiments, the cording remains locked or set in position due to the operation of a ratchet, or ratchet-type assembly located in the interior of one or more of the knob assemblies where the cording winds. Similarly, when the wearer twists the one or more of the knobs in the opposite direction, the cording lengthens and, thus, loosens the chinstrap until the proper fit is achieved. Again, the cording remains locked or set in position until the knob is twisted again. In this manner, disclosed embodiments allows the wearer to easily and quickly adjust the fit of the helmet as necessary and ensure a proper and safe fit.
This application, under 35 U.S.C. §119, claims the benefit of U.S. Provisional Patent Application Ser. No. 62/133,466 filed on Mar. 16, 2015, and titled “Adjustable Chinstrap For Children's Sports Helmet,” the contents of which are hereby incorporated by reference herein.
FIELD OF THE DISCLOSUREThis disclosure relates to fasteners for helmets. In particular, this disclosure relates to a fastener for a helmet chinstrap that can be easily adjusted and, in many cases, adjusted by a child.
BACKGROUNDHelmets are a widely used and well-known piece of safety equipment and are often worn in sporting activities such as bicycling, skate boarding, skiing, snowboarding, rock climbing, hockey, lacrosse, football, and the like. Typically, these helmets include a durable outer shell, a padding assembly within the outer shell, and a chinstrap connected to each side of the outer shell and intended to be fastened under the wearer's chin to help hold the helmet in place. Typically, the chinstrap is fastened in place by a buckle or other snap-fit mechanism that is part of the chinstrap. A properly adjusted chinstrap is important for a comfortable fit and to maximize the safe operation of the helmet. Typically, the chinstrap is adjusted by having the wearer slide or maneuver one or both sides of the chinstrap through a strap-length adjustment mechanism, such as D-rings, ladderlocks, buckles, or the like in order to achieve a snug, safe fit.
Existing adjustment mechanisms, such as the above-described, have a number of drawbacks. For example, the wearer of the helmet is often a child, without sufficient strength, coordination, or know-how to adjust the chinstrap properly. In addition, the adjustment mechanisms are often located at inconvenient locations and require iterative removal and replacement of the helmet to adjust to the proper fit. Likewise, the strap material is typically thick for strength purposes, but can be difficult to maneuver through the adjustment mechanism due to the strap thickness.
Thus, existing adjustment systems can be cumbersome and frustrating to adjust, particularly when the wearer is a child and can lead to potentially unsafe helmet fit. For example, if a chinstrap is too tight the skin under the chin may be accidentally pinched during buckling which is not only painful, but can also negatively affect the wearer's desire for proper, snug fit of the chinstrap. Likewise, frequent buckling and unbuckling of the chinstrap, and the associated tugging on the strap, often loosens the adjustment mechanism resulting in an unsafe, too loose fit. Improper chinstrap adjustment and fit can compromise or render useless the helmet's safety features which could lead to serious injury to the wearer. Other drawbacks of existing helmet chinstrap adjustment systems may also exist.
In view of the above and other drawbacks with existing systems, there exists a need for an adjustable chinstrap for helmets that can be easily, reliably, and quickly adjusted without the need to remove the helmet from the wearer's head or require the assistance of another. What is needed is an adjustment mechanism that is easily reachable and adjustable and will not compromise the safety and functionality of the helmet.
SUMMARYAccordingly, the present disclosure provides safe, easy ways to adjust a chinstrap while it remains buckled and with the helmet still in place on the wearer's head.
Disclosed embodiments include a helmet having a protective cover, a chinstrap, and an adjustment knob connected between the protective cover and the chinstrap and wherein rotation of the adjustment knob adjusts the position of the chinstrap.
Other disclosed embodiments include a helmet with a cord connected between the chinstrap and the adjustment knob and wherein rotation of the adjustment knob coils or uncoils the cord and adjusts that position of the chinstrap.
Other disclosed embodiments include a helmet with a lock mechanism to selectively hold the adjustment knob in position after rotation.
In further disclosed embodiments, the adjustment knob further comprises a winding disk that upon rotation winds or unwinds a cord connected to the chinstrap, a spring in connection with the winding disk to bias the rotation of the winding disk in a first direction, a ratchet wheel having at least one arm, and an outer shell having a rim with a first portion comprising at least one tooth shaped to engage the at least one arm of the ratchet wheel when the outer shell is in a first position, and a second portion without teeth that allows the spring to rotate the winding disk in the first direction when the outer shell is in a second position. In some embodiments, the rotation of the winding disk in the first direction causes the cord to unwind.
In other disclosed embodiments the adjustment knob further comprises, a winding disk that upon rotation in a first direction winds a cord connected to the chinstrap and upon rotation in a second direction unwinds the cord connected to the chinstrap, a ratchet wheel comprising at least one first arm at a first location on the ratchet wheel and at least one second arm at a second location on the ratchet wheel, and an outer shell having at least one first tooth at a first location on the outer shell and shaped to engage the at least one first arm on the ratchet wheel when the outer shell is rotated in the first direction and at least one second tooth at a second location on the outer shell and shaped to engage the at least one second arm on the ratchet wheel when the outer shell is rotated in the second direction.
In some embodiments, the rotation of the winding disk in the first direction causes the cord to unwind and rotation of the winding disk in the second direction causes the cord to wind.
While the disclosure is susceptible to various modifications and alternative forms, specific embodiments have been shown by way of example in the drawings and will be described in detail herein. However, it should be understood that the disclosure is not intended to be limited to the particular forms disclosed. Rather, the intention is to cover all modifications, equivalents and alternatives falling within the spirit and scope of the invention as defined by the appended claims.
DETAILED DESCRIPTIONPresently disclosed embodiments provide a safe and easy way for a child, or other wearer, to independently tighten or loosen the chinstrap on his or her helmet while it remains buckled on his or her head. Disclosed embodiments comprise a small, twistable knob attached to each side of the chinstrap webbing right below each ear. The knobs comprise the adjustment mechanism used to loosen or tighten the helmet chinstrap. After the wearer, possibly a child, buckles the helmet chinstrap below his or her chin, the wearer can reach up and twist one or both knobs to loosen or tighten the chinstrap to achieve the proper fit. In some embodiments, each knob may have a cord or the like affixed at one end to an interior assembly and affixed at another end to the chinstrap material. For example, in embodiments where the chinstrap is webbing material, the cord may be fused between two layers of the webbing material. The other ends of the chinstrap may respectively be attached to the buckle or other snap fit assembly. In operation, the chinstrap may be buckled under the chin, and then one or more of the knobs may be rotated forward, the attached cord is shortened and, thus, the chinstrap may be tightened. In some embodiments, the cording remains locked or set in position due to the operation of a ratchet, or ratchet-type assembly located in the interior of one or more of the knob assemblies where the cording winds. Similarly, when the wearer twists the one or more of the knobs in the opposite direction, the cording lengthens and, thus, loosens the chinstrap until the proper fit is achieved. Again, the cording remains locked or set in position until the knob is twisted again. In this manner, disclosed embodiments allows the wearer to easily and quickly adjust the fit of the helmet as necessary and ensure a proper and safe fit.
In some embodiments, such as the one shown in
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As disclosed herein, for some embodiments, one end of cord 24 may engage a spool, axel, pulley or the like within adjustment knob 22 assembly. In some embodiments, motion of the adjustment knob 22 in one direction coils, or otherwise shortens, the cord 24 thereby tightening the chinstrap 16 and motion of the adjustment knob 22 in the opposite direction uncoils, or otherwise lengthens, the cord 24 thereby loosening the chinstrap 16. Disclosed embodiments also include stop or lockable mechanisms in the adjustment knob 22 assembly to hold the chinstrap 16 in the desired position. Likewise, in other embodiments, it may be convenient to have cord 24 attached to helmet 10 and chinstrap 16 attached to the adjustment knob 22 then the coiling and uncoiling of cord 24 caused the adjustment knob 22 to travel closer or farther from the helmet 10 and thereby tighten or loosen the chinstrap 16.
Embodiments of adjustment knob 22 may also comprise ratchet wheel 238. Ratchet wheel 238 may further comprise one or more arms 240 spaced around the circumference of ratchet wheel 238. Ratchet wheel 238 may also comprise a nub 239 on an inner circumference of ratchet wheel 238 and sized and shaped to engage spring stop 232 and thereby impart the torsional motion of ratchet wheel 238 to the winding disk 226. While spring stop 232 and nub 239 are shown as generally rectangular in shape, the disclosure is not so limited and other shapes, sizes, and configurations are possible.
Embodiments of adjustment knob 22 may also comprise an outer shell 242 having one or more teeth 244 on an inner circumference. As indicated in
In some embodiments, outer shell 242 is sized to fit over inner shell 220 in order to enclose the above-described components into a unit that comprises the adjustment knob 22 or cooperates with adjustment knob 22 to adjust the chinstrap 16 as disclosed herein. For example, embodiments of outer shell 242 may comprise knurling or grooves on rim 245 to present a graspable surface which a wearer may grip and turn the adjustment knob 22. In other embodiments outer shell 242 may further comprise a surface 248 which mates with, is connected or adhered to, or otherwise cooperates with a cover or the like (e.g., as shown in
In operation of some embodiments a wearer may push in (axially) on the outer shell 242 (either directly or via adjustment knob 22) causing outer teeth 246 to engage inner teeth 230. The wearer may then rotate the outer shell (again, either directly or via adjustment knob 22) and cause rotation of the outer shell 242 with respect to the inner shell 220. Ratchet arms 240 are shaped to slip over teeth 244 in one direction of rotation (e.g., clockwise in
In some embodiments the adjustment knob 22 and chinstrap 16 may be released by pulling axially outward on the outer shell 242 which, for example, moves arms 240 into the portion of rim 245 that lacks teeth 244 (see, e.g.,
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Although various embodiments have been shown and described, the present disclosure is not so limited and will be understood to include all such modifications and variations are would be apparent to one skilled in the art.
Claims
1. A helmet comprising:
- a protective cover;
- a chinstrap; and
- an adjustment knob connected between the protective cover and the chinstrap and wherein rotation of the adjustment knob adjusts the position of the chinstrap.
2. The helmet of claim 1 further comprising:
- a cord connected between the chinstrap and the adjustment knob and wherein rotation of the adjustment knob coils or uncoils the cord and adjusts that position of the chinstrap.
3. The helmet of claim 1 further comprising:
- a lock mechanism to selectively hold the adjustment knob in position after rotation.
4. The helmet of claim 3 wherein the adjustment knob further comprises:
- a winding disk that upon rotation winds or unwinds a cord connected to the chinstrap;
- a spring in connection with the winding disk to bias the rotation of the winding disk in a first direction;
- a ratchet wheel having at least one arm; and
- an outer shell having a rim with a first portion comprising at least one tooth shaped to engage the at least one arm of the ratchet wheel when the outer shell is in a first position, and a second portion without teeth that allows the spring to rotate the winding disk in the first direction when the outer shell is in a second position.
5. The helmet of claim 4 wherein the rotation of the winding disk in the first direction causes the cord to unwind.
6. The helmet of claim 3 wherein the adjustment knob further comprises:
- a winding disk that upon rotation in a first direction winds a cord connected to the chinstrap and upon rotation in a second direction unwinds the cord connected to the chinstrap;
- a ratchet wheel comprising at least one first arm at a first location on the ratchet wheel and at least one second arm at a second location on the ratchet wheel; and
- an outer shell having at least one first tooth at a first location on the outer shell and shaped to engage the at least one first arm on the ratchet wheel when the outer shell is rotated in the first direction and at least one second tooth at a second location on the outer shell and shaped to engage the at least one second arm on the ratchet wheel when the outer shell is rotated in the second direction.
7. The helmet of claim 6 wherein the rotation of the winding disk in the first direction causes the cord to unwind and rotation of the winding disk in the second direction causes the cord to wind.
Type: Application
Filed: Nov 10, 2015
Publication Date: Sep 22, 2016
Inventors: ANGUS W. HICKMAN (Boise, ID), CRAIG HICKMAN (Boise, ID)
Application Number: 14/937,130