The present invention relates to a ratchet mechanism for the headband of a protective helmet or similar headgear, a mechanism that allows for adjustment of the size and fit of the headband.
Protective helmets are commonly worn in the industrial workplace to prevent or reduce the likelihood of head injuries. The hard hat is the most common and well-recognized protective helmet. A hard hat consists of three primary components—a shell, a headband, and a suspension system—which cooperate to reduce the potential for injury by attenuating some translational energy of the force of an impact to the helmet.
With respect to the construction and protection afforded by a hard hat, the American National Standards Institute (“ANSI”) promulgates minimum performance requirements for protective helmets and further classifies helmets based on their ability to reduce the forces of impact and penetration, as well as their ability to protect against high voltage electric shock. See, for example, ANSI Z89.1-1997 (R1998), American National Standard for Industrial Head Protection.
As mentioned above, a hard hat or similar protective helmet is comprised primarily of: a shell, a headband, and a suspension system. These primary hard hat components cooperate to provide the requisite level of protection. The hard hat shell itself causes any force of impact to be spread across the surface area of the shell. The hard hat suspension separates the wearer's head from the shell such that there is an air gap between the shell and the wearer's head that provides for further attenuation of the force of an impact to the shell. Specifically, when an object strikes the shell of the hard hat, the shell itself flexes inward and the straps of the suspension system will stretch. The air gap accommodates the flexing of the shell and stretching of the straps, but, under normal conditions, prevents the wearer's head from contacting the hard hat shell.
Of course, for a hard hat to provide the appropriate level of protection, it must fit snugly on the wearer's head. In this regard, it is common for the headband of a hard hat to be adjustable to provide for such a snug fit. In this regard, a headband typically has one of two common sizing mechanisms, a pin-lock arrangement or a ratchet mechanism. Regardless of the chosen sizing mechanism, the headband is commonly a flexible, one-piece member that has overlapping rear end portions. With a pin-lock mechanism, a first of the rear end portions of the headband is provided with a pin, and the second of the rear end portions is provided with series of holes at spaced intervals. As such, the pin of the first rear end portion can be inserted through one of the holes of the second rear end portion, thus forming a loop of a selected circumference to fit snugly around the wearer's head. With a ratchet mechanism, lateral movement of the overlapping rear end portions of the headband is effectuated through a rack and pinion arrangement or similar gear arrangement.
As one example of a ratchet mechanism, reference is made to U.S. Pat. No. 4,888,831 issued to Oleson, a patent that is incorporated herein by this reference. As described in the '831 patent, a preferred ratchet mechanism is often a rack and pinion arrangement which operates within elongated overlapping slots defined by the rear end portions of the headband, each of said slots defining a series of teeth of a rack gear. The rack and pinion arrangement and the overlapping rear end portions of the headband are housed between a pair of adjoining arc-shaped housing sections which generally conform to the contour of the wearer's head. The rear end portions of the headband are seated for slidable, lateral movement within the arc-shaped housing sections.
Referring still to the '831 patent, and specifically
For another example of a rack and pinion arrangement, reference is made to U.S. Pat. No. 5,950,245 issued to Binduga. Again, the headband has overlapping rear end portions. Elongated slots are defined by the rear end portions of the headband, with each of said slots defining a series of teeth of a rack gear. As described in the '245 patent with reference to
Regardless of the specific construction of the ratchet mechanism, the plastic housing that encloses the overlapping rear end portions of a headband typically has a substantially rigid construction. Thus, despite the ability to adjust the circumference of the headband through use of the ratchet mechanism, the fit may still be less than optimal due to the rigidity of the housing, which also may cause discomfort to the wearer.
Furthermore, there are other types of protective headgear that incorporate a similar ratchet mechanism, including but not limited to, faceshields and respirator hoods. As with hard hats or other protective helmets, despite the ability to adjust the circumference of the headband through use of the ratchet mechanism, the fit may still be less than optimal due to the substantially rigid construction of the housing that encloses the overlapping rear end portions of the headband.
It would therefore be desirable to provide an improved construction for a ratchet mechanism for the headband of a protective helmet or other headgear, a mechanism that allows for adjustment of the size and fit of the headband, while also providing increased comfort to the wearer.
The present invention is a ratchet mechanism for the headband of a protective helmet or other headgear, a mechanism that allows for adjustment of the size and fit of the headband.
For example, a hard hat generally includes: a substantially rigid shell shaped to protect the wearer's head, said shell defining a bottom opening and an internal cavity for receiving the wearer's head; a headband with an absorbent brow pad; and a suspension comprised of two or more intersecting straps with respective keys secured to the distal ends thereof. Thus, to secure the suspension to the shell of the hard hat, the shell includes key sockets spaced about the periphery of the shell, each such key socket being molded into the shell and adapted to receive one of the keys. Furthermore, the headband has a plurality of upwardly extending appendages, each corresponding to a respective key of the suspension, such that the keys can be secured to the headband, completing assembly of the essential components of the hard hat. Example of a preferred construction of the keys 18 and associated key sockets, reference is made to U.S. Pat. No. 6,609,254, which is incorporated herein by reference.
The headband itself has overlapping rear end portions which are enclosed in a housing, which is preferably comprised of an outer substantially arc-shaped housing section joined to a inner substantially arc-shaped housing section, thus defining an internal cavity for receiving the overlapping rear end portions of the headband. Also contained within the internal cavity defined by the housing sections is an adjustment mechanism adapted to cause lateral movement of the overlapping rear end portions of the headband with respect to one another. Specifically, it is preferred that each of the overlapping rear end portions defines an elongated slot and associated rack gear, and the adjustment mechanism includes a rotational element with an associated pinion adapted to mate with and engage the respective rack gears of the overlapping rear end portions of the headband. An adjustment knob extends through the outer housing section to engage the rotational element, such that rotation of the adjustment knob causes rotation of the rotational element, which, because of the mating and engaging of the pinion with the respective rack gears of the overlapping rear end portions, causes lateral movement of the overlapping rear end portions with respect to one another.
However, since prior art constructions of a ratchet mechanism inevitably involve a substantially rigid plastic housing, even though the headband can be adjusted, the fit may still be less than optimal and also may be uncomfortable for the wearer. Thus, the outer housing section of a ratchet mechanism made in accordance with the present invention is substantially segmented into multiple discrete portions such that the outer housing section is flexible along defined boundaries between the discrete portions. Specifically, the outer housing section has a broad wall surface with shorter walls extending from the upper and lower edges of this broad wall surface. These shorter walls are provided with detents at spaced intervals, each detent being formed by angled wall portions that meet at a point, thus creating a precisely located flex point. Then, by connecting each corresponding pair of detents in the upper and lower walls with a channel or groove in the broad wall surface, defined boundaries are created, and the outer housing section is substantially segmented into multiple discrete portions.
Similarly, the inner housing section is also substantially segmented into multiple discrete portions such that it is flexible along defined boundaries between the discrete portions. In this regard, the inner housing section also has a broad wall surface with shorter walls extending from the upper and lower edges of this broad wall surface. These upper and lower walls are designed to mate with the corresponding upper and lower walls of the outer housing section to join the two housing sections together. However, rather than be provided with detents, these walls are broken at spaced intervals that correspond with the position of the detents defined in the upper and lower walls of the outer housing section. Furthermore, notches are defined in the broad wall surface, again to correspond with the position of the detents defined in the upper and lower walls of the outer housing section. By connecting each corresponding pair of notches with a channel or groove in the broad wall surface, defined boundaries are created, substantially segmenting the inner housing section into multiple discrete portions.
To join the outer housing section and the inner housing section together while avoiding interference with the ability of the housing sections of the ratchet mechanism to flex along the defined boundaries, the outside wall segments of the inner housing section are fastened to the corresponding portions of the walls of the outer housing section using a snap-fit relationship, preferably in a manner that for some limited movement of the outside segments of the outer and inner housing sections relative to one another, thus compensating for any shearing motion between the outer and inner housing sections when the housing is flexed.
As a further refinement, it is further contemplated and preferred that the inner housing section be provided with integral “pillows” to increase the comfort to the wearer. Specifically, along the side of the inner housing section that contacts the wearer's head, there are integral and substantially rectangular protrusions extending from the broad wall surface, the so-called pillows.
The present invention is a ratchet mechanism for the headband of a protective helmet or other headgear, a mechanism that allows for adjustment of the size and fit of the headband.
As shown in
Nevertheless, the attachment of the headband 13 and suspension straps 16a, 16b to the shell 12 of the hard hat 10 is not the focus of the present application. Indeed, it is recognized that various attachment means could be employed without departing from the spirit and scope of the present invention. Rather, the present invention relates to a ratchet mechanism for the headband 13 of a hard hat 10 or other protective headgear, as generally indicated by reference numeral 30 in
Referring now to
The overlapping rear end portions 13e, 13f are enclosed in a housing, which is preferably comprised of an outer substantially arc-shaped housing section 32 joined to a inner substantially arc-shaped housing section 34, thus defining an internal cavity for receiving the overlapping rear end portions 13e, 13f of the headband 13. Each of these housing sections 32, 34 is preferably made of polypropylene or a similar plastic material. Also contained within the internal cavity defined by the housing sections 32, 34 is a rotational element 36, which includes a pinion 38. This pinion 38 is adapted to mate with and engage the respective rack gears of the overlapping rear end portions 13e, 13f of the headband 13. An adjustment knob 37 extends through the outer housing section 32 to engage the rotational element 36, such that rotation of the adjustment knob 37 turns the rotational element 36, which, because of the mating and engaging of the pinion 38 with the respective rack gears of the overlapping rear end portions 13e, 13f, causes lateral movement of the overlapping rear end portions 13e, 13f with respect to one another. Such a mechanism for effectuating the lateral movement of the overlapping rear end portions 13e, 13f of a headband 13 to accommodate adjustment of the headband 13 is known in the prior art, as described above with reference to U.S. Pat. Nos. 4,888,831 and 5,950,245, each of which has been incorporated herein by reference.
Furthermore, similar to prior art constructions, the rotational element 36 is further provided with an integral spring assembly, which, in this exemplary embodiment, is comprised of two substantially semi-circular arch portions 40, 42 disposed on opposite sides of the central axis of rotation of the rotational element 36. A spring tooth 41, 43 extends from each of the arch portions 40, 42. As best shown in
However, as mentioned above, since prior art constructions of a ratchet mechanism inevitably involve a substantially rigid plastic housing, even though the headband can be adjusted, the fit may still be less than optimal and also may be uncomfortable for the wearer. Therefore, it would be desirable to provide a housing for enclosing the ratchet mechanism that is constructed so as to allow for some flexibility.
Referring again to
Referring now to
To join the outer housing section 32 and the inner housing section 34, various techniques could be used with departing from the spirit and scope of the present invention. In this exemplary embodiment, the outer and inner housing sections 32, 24 are fastened together in a snap-fit relationship with the shorter walls 62, 64 of the inner housing section 34 fitting inside of and adjacent to the shorter walls 52, 54 of the outer housing section 32. Specifically, referring still to
Furthermore, in this exemplary embodiment, each of the outside wall segments 62b, 62c, 64b, 64c of the inner housing section 34 are fastened to the corresponding portions of the walls 52, 54 of the outer housing section 32 using a snap-fit relationship. Specifically, referring again to
To further explain the snap-fit relationships described above,
Finally, as described above, when the ratchet mechanism 30 is flexed inwardly along the defined boundaries, each outer tab 100, 102, 104, 106 will “ride” along the corresponding opening 110, 112, 114, 116 until it reaches the end of that opening 110, 112, 114, 116. The position of the tabs 100, 102, 104, 106 in relation to the openings 110, 112, 114, 116 at this point defines a yield point for the snap-fit function. If the ratchet mechanism 30 is flexed beyond this yield point, the natural reaction is for the tabs 100, 102, 104, 106 to begin to move away from and disengage the lips of the respective openings 110, 112, 114, 116, thus reversing the snap-fit motion illustrated in
Thus, the ratchet mechanism 30 of the present invention allows for adjustment of the size and fit of the protective helmet 10 or other headgear, and because of the flexibility of the outer and inner housing sections 32, 34, a better and more comfortable fit can be obtained. As mentioned above, although the exemplary ratchet mechanism described herein is incorporated into a hard hat, the ratchet mechanism of the present invention can certainly be incorporated into other types of headgear that have an adjustable headband, such as faceshields and respirator hoods, without departing from the spirit and scope of the present invention.
As a further refinement, and as illustrated in
It will be obvious to those skilled in the art that further modifications may be made to the embodiments described herein without departing from the spirit and scope of the present invention.