Mouthguard with tapered breathing channel

Abstract

A mouthguard according to an embodiment of the present disclosure includes a pair of spaced lateral bite wings, a conduit defining an air channel extending between forward portions of the lateral bite wings, and a lip shield member and/or a flange disposed around and extending radially outward with respect to a forward end of the conduit. The conduit is tapered inward from its forward end toward its rearward end, and defines an incisor engaging surface proximate the rearward end of the conduit, and a lip engaging surface between the incisor engaging surface and the forward end of the conduit.

Description

TECHNICAL FIELD

The present invention relates to mouthguards for protecting a wearer's mouth during physical activities. More specifically, the present invention relates to mouthguards that include breathing channels.

BACKGROUND

Mouthguards are typically used to protect a wearer's teeth, oral tissue, and gums from impact and abrasion. Mouthguards may reduce the chance of shock and other injuries resulting from impacts during athletic activities. Some mouthguards include breathing channels to facilitate breathing therethrough.

SUMMARY

In one Example, a mouthguard comprising a pair of spaced lateral bite wings, a conduit and a front lip shield member. The lateral bit wings, each have an upper teeth engaging surface, a lower teeth engaging surface, a forward portion and a rearward portion. The conduit is disposed between the forward portions of the lateral bite wings, the conduit having a forward end, a rearward end, and upper and lower walls extending between the forward and rearward ends of the conduit, the conduit defining an air channel extending therethrough from the forward end to the rearward end. The air channel has a front opening at the forward end of the conduit and a rear opening at the rearward end of the conduit. The front lip shield member is disposed about and extends radially outward with respect to the forward end of the conduit, wherein the front lip shield member includes a rear face positioned and shaped to confront an outer surface of a user's lips when in use. The conduit is tapered inward from the forward end to the rearward end thereof such that a distance between the upper and lower walls at the forward end is greater than a distance between the upper and lower walls at the rearward end. The front opening of the air channel has a larger cross-sectional area than the rear opening of the air channel. The upper and lower walls define, respectively an upper incisor engaging surface and a lower incisor engaging surface, the upper and lower incisor engaging surfaces being located proximate the rearward end of the conduit.

In another Example, a mouthguard comprising a pair of spaced lateral bit wings and a conduit. The lateral bite wings each have an upper teeth engaging surface, a lower teeth engaging surface, a forward portion and a rearward portion. The conduit is disposed between the forward portions of the lateral bite wings, and has a forward end, a rearward end, and upper and lower walls extending between the forward and rearward ends of the conduit, the conduit defining an air channel extending therethrough from the forward end to the rearward end, the air channel having a front opening at the forward end of the conduit and a rear opening at the rearward end of the conduit. The conduit is tapered inward from the forward end to the rearward end thereof such that a distance between the upper and lower walls at the forward end is greater than a distance between the upper and lower walls at the rearward end. The front opening of the air channel has a larger cross-sectional area than the rear opening of the air channel. The upper wall defines an upper incisor engaging surface proximate the rearward end of the conduit, and an upper lip engaging surface located between the upper incisor engaging surface and the forward end of the conduit. The lower wall defines a lower incisor engaging surface proximate the rearward end of the conduit, and a lower lip engaging surface located between the lower incisor engaging surface and the forward end of the conduit.

In another Example, a method of forming a mouthguard, the method comprising forming a core layer of a first material having a first durometer, the core layer having a generally tubular structure defined by an outer wall having opposite upper and lower sides and opposite lateral sides therebetween, the upper and lower sides and the lateral sides defining a front opening and a rear opening of the core layer, wherein the upper and lower sides and the lateral sides taper inward from the front opening toward the rear opening such that the front opening has a larger cross-sectional area than the rear opening. Next, the method includes molding an outer layer of a second material over and about the core layer to form a conduit having a forward end and a rearward end and an air channel extending therethrough, the second material having a second durometer lower than the first durometer, wherein the outer layer defines upper and lower incisor engaging surfaces proximate the rearward end of the conduit, and upper and lower lip engaging surfaces between the incisor engaging surfaces and the forward end of the conduit. The method further includes molding a pair of spaced lateral bite wings on opposite sides of the conduit, each of the lateral bite wings having an upper teeth engaging surface, a lower teeth engaging surface, a forward portion and a rearward portion, wherein the conduit is disposed between the forward portions of the lateral bite wings.

While multiple embodiments are disclosed, still other embodiments of the present invention will become apparent to those skilled in the art from the following detailed description, which shows and describes illustrative embodiments of the invention. Accordingly, the drawings and detailed description are to be regarded as illustrative in nature and not restrictive.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a front perspective view of a mouthguard, according to some embodiments;

FIG. 2 is a front view of the mouthguard of FIG. 1, according to some embodiments;

FIG. 3 is a rear view of the mouthguard of FIG. 1, according to some embodiments;

FIG. 4 is a side elevation view of the mouthguard of FIG. 1, according to some embodiments;

FIG. 5 is a top sectional view of the mouthguard of FIG. 1 taken along the line 5-5 in FIG. 4, according to some embodiments;

FIG. 6 is a top view of the mouthguard of FIG. 1, according to some embodiments;

FIG. 7 is a bottom view of the mouthguard of FIG. 1, according to some embodiments;

FIG. 8 is a side sectional view of the mouthguard of FIG. 1 taken along line 8-8 of FIG. 6, according to some embodiments;

FIG. 9 is a top view of an alternative mouthguard, according to some embodiments;

FIG. 10 is a side sectional view of the mouthguard of FIG. 9 taken along line 10-10 of FIG. 9, according to some embodiments;

FIG. 11 is a front perspective view of a mouthguard, according to some alternative embodiments;

FIG. 12 is a front view of the mouthguard of FIG. 11, according to some embodiments;

FIG. 13 is a rear view of the mouthguard of FIGS. FIG. 11, according to some embodiments;

FIG. 14 is a top view of the mouthguard of FIGS. FIG. 11, according to some embodiments;

FIG. 15 is a bottom view of the mouthguard of FIGS. FIG. 11, according to some embodiments;

FIG. 16 is a side sectional view of the mouthguard of FIGS. FIG. 11 taken along line 16-16 of FIG. 14, according to some embodiments;

FIG. 17 is a top view of an alternative mouthguard, according to some embodiments;

FIG. 18 is a side sectional view of the mouthguard of FIG. 17 taken along line 18-18 of FIG. 17, according to some embodiments; and

FIG. 19 is a front perspective view of another mouthguard, according to some embodiments.

It should be understood that the drawings are intended facilitate understanding of exemplary embodiments of the present invention are not necessarily to scale.

DETAILED DESCRIPTION

The following description refers to the accompanying drawings which show specific embodiments. Although specific embodiments are shown and described, it is to be understood that additional or alternative features are employed in other embodiments. The following detailed description is not to be taken in a limiting sense, and the scope of the claimed invention is defined by the appended claims and their equivalents.

It should be understood that like reference numerals are intended to identify the same structural components, elements, portions, or surfaces consistently throughout the several drawing figures, as such components, elements, portions, or surfaces may be further described or explained by the entire written specification, of which this detailed description is an integral part. Unless otherwise indicated, the drawings are intended to be read (for example, cross-hatching, arrangement of parts, proportion, degree, etc.) together with the specification, and are to be considered a portion of the written description. In the description, the terms “forward”, “front”, “rearward”, “rear”, “upper”, “lower”, “forward”, “rearward”, “lateral”, and “horizontal” as well as variations thereof (for example, “superiorly” and the like) are used to describe relative positions of features of mouthguards. Such terms refer to anatomical reference directions when a mouthguard is positioned in a wearer's mouth in a typical orientation.

FIGS. 1-8 illustrate a mouthguard 100, according to some embodiments. Generally, the mouthguard 100 includes a pair of spaced-apart lateral bite wings 110a, 110b, a conduit 115 having a forward end 116 and a rearward end 118, and a lip shield member 120 having a front face 122 and a rear face 123. As shown, the lateral bite wings 110a, 110b define, respectively, upper teeth-engaging surfaces 124a, 124b, and lower teeth-engaging surfaces 128a, 128b, and have respective forward portions 130a, 130b and opposite rearward portions 132a, 132b. As further shown, the conduit 115 is disposed between the forward portions 130a, 130b of the lateral bite wings 110a, 110b, and the lip shield member 120 is disposed about and extends radially outward with respect to the forward end 116 of the conduit 115.

In the illustrated embodiment, the lateral bite wings 110a, 110b include, respectively, border portions 134a, 134b disposed along the outer periphery thereof. As further illustrated, in this embodiment, the border portions 134a, 134b include, respectively, upper side walls 136a, 136b that project upward with respect to the upper teeth-engaging surfaces 124a, 124b, and lower side walls 137a, 137b that project downward with respect to the lower teeth-engaging surfaces 128a, 128b. In the particular mouthguard 100 the border portions 134a, 134b are structurally different elements than the lateral bite wings 110a, 110b (e.g., are formed in a separate manufacturing step, as will be explained in further detail herein), in other embodiments, the lateral bite wings 110a, 110b may lack distinct border portions 134a, 134b. In such embodiments, the upper and lower side walls 136a, 136b, and 137a, 137b may be integrally formed with the lateral bite wings 110a, 110b, respectively. Still alternatively, the upper side walls 136a, 136b, and/or the lower side walls 137a, 137b may be omitted.

As further shown, in the illustrated embodiment, the mouthguard 100 includes an upper rim 140 and a lower rim 142, as well as protrusions 144. As illustrated, the upper rim 140 extends upward with respect to the upper teeth engaging surfaces 124a, 124b along the rearward end 118 of the conduit 115 and portions of the inner edges of the lateral bite wings 110a, 110b. Additionally, the lower rim 142 extends downward with respect to the lower teeth engaging surfaces 128a, 128b along the rearward end 118 of the conduit 115 and portions of the inner edges of the lateral bite wings 110a, 110b. Still additionally, the protrusions 144 are formed on the upper and lower teeth engaging surfaces 124a, 124b and 128a, 128b.

When present, the upper and lower side walls 136a, 136b, and 137a, 137b, and the upper and lower rims 140, 142, can operate to enhance the fit of the mouthguard 100 and to maintain the mouthguard 100 in place in the wearer's mouth when in use. Additionally, the protrusions 144 can operate to enhance engagement between the teeth engaging surfaces 124a, 124b, 128a, 128b and the user's teeth. It is emphasized, however, that in various embodiments, any or all of the side walls 136a, 136b, and 137a, 137b, the upper and lower rims 140, 142 and the protrusions 144 may be omitted.

The conduit 115 has an upper wall 150 disposed generally upward of the lateral bite wings 110a, 110b, and a lower wall 154 disposed generally downward of the lateral bite wings 110a, 110b. As shown, the upper and lower walls 150, 154 extend between the forward and rearward ends 116, 118 of the conduit 115. The conduit 115 defines an air channel 158 having a front opening 162 at the forward end 116 of the conduit 115, and a rear opening 164 at the rearward end 118 of the conduit 115.

In the embodiment shown, the upper wall 150 defines an upper incisor engaging surface 170 located proximate the rearward end 118 of the conduit 115, and the lower wall 154 defines a lower incisor engaging surface 174 located proximate the rearward end 118 of the conduit 115. Additionally, the upper wall 150 further defines an upper lip engaging surface 180 between the upper incisor engaging surface 170 and the forward end 116 of the conduit, and the lower wall 154 defines a lower lip engaging surface 184 between the lower incisor engaging surface 174 and the forward end 116 of the conduit 115.

In the various embodiments, the upper and lower walls 150, 154 of the conduit 115 are arranged to taper inward from the forward end 116 toward the rearward end 118 of the conduit 115. As such, the distance between the upper and lower walls 150, 154 at the forward end 116 of the conduit 115 is greater than the corresponding distance between the upper and lower walls 150, 154 at the rearward end 118 of the conduit 115. Consequently, as can be seen in particular in FIG. 8, the front opening 162 of the air channel 158 has a larger cross-sectional area than the rear opening 164 of the air channel 158.

Additionally, in some embodiments, as can be seen best in FIG. 5, the air channel 158 is wider at the front opening 162 than at the rear opening 164. In other embodiments, the air channel 158 has a substantially constant lateral-direction width between the front opening 162 and the rear opening 164.

In the illustrated embodiment, the conduit 115 includes an interior wall 186 extending from the lower wall 154 to the upper wall 150 within the air channel 158. In the particular embodiment shown, the interior wall 186 extends from the rearward end 118 of the conduit 115 (and consequently, from the rear opening 164 of the air channel 158) forward toward the forward end 116 of the conduit 115. As such, in this embodiment, the inner wall 186 is positioned to bifurcate the rearward region of the air channel 158. In other embodiments, the interior wall 186 may extend substantially the entire length of the conduit 115 and the air channel 158 (effectively forming two discrete air channels). In other embodiments, additional interior walls may be present. In still other embodiments, the interior wall 186 may be omitted altogether. When present, the interior wall 186 operates to provided structural support to the conduit 115, thereby inhibiting crushing of the conduit 115 during use.

The lip shield member 120 can have various possible sizes and shapes, and is configured to protect the soft tissues surrounding the mouth from frontal blows. In the various embodiments, the rear face 123 is positioned and shaped to generally confront the outer surface of the wearer's lips when in use, while the front face 122 is oriented to face away from the wearer's lips when in use.

In the illustrated embodiment, the lip shield member 120 includes a slot 188 for receiving a tether (not shown), which may be secured to a facemask or other feature of a helmet. In other embodiments, the slot 188 may be omitted.

In various embodiments, the mouthguard 100 may be a composite, multi-layer construction, with different portions/layers formed in different manufacturing processes or steps, and in some embodiments, of different polymer compositions. Such composite construction advantageously provides the ability to tailor the mechanical or other functional properties of the respective portions of mouthguard 100.

In the illustrated embodiment, as can perhaps be best seen in FIGS. 5 and 8, the conduit 115 is a multi-layer construction, and includes a core layer 190 that generally defines the tapered geometry of the conduit 115 and the air channel 158. Surrounding the core layer 190 is an outer layer 194. In one embodiment, the core layer 190 may be made from a higher-durometer material than the outer layer 194.

In various embodiments of the mouthguard 100, the lateral bite wings 110a, 110b may be formed integrally with, and consequently, of the same material as, the outer layer 194 of the conduit 115. In other embodiments, the lateral bite wings 110a, 110b may be formed after forming the outer layer 194 of the conduit 115. Similarly, in embodiments, the lip shield member 120 may be formed integrally with the lateral bite wings 110a, 110b.

In other embodiments, the lip shield member 120 may be formed in a separate process from the formation of the conduit 115 and/or the lateral bite wings 110a, 110b. In one embodiment, the lip shield member 120 comprises a third material that is different, in composition and/or hardness, than the material(s) forming the conduit 115 and/or the lateral bite wings 110a, 110b.

In still other embodiments, the border portions 134a, 134b and/or the side walls 136a, 136b, when present, may be formed in the same manufacturing step, and consequently, of the same material, as the lip shield member 130. In other embodiments, the lateral bite wings 110a, 110b lack structurally separate border portion. In such embodiments, the side walls 136a, 136b, when present, can be formed in the same manufacturing step as the lateral bite wings 110a, 110b, and thus be made of the same material.

The multi-layer, multi-element construction of various embodiments of the mouthguard 100 advantageously provides for tailoring the various elements to provide desired functional benefits. In such embodiments, the relative rigidity of the core layer 190 can provide robust mechanical strength so as to maintain the patency of the air channel 158 when in use. At the same time, in embodiments, the outer layer 194 can be formed from a relatively softer material to improve mouth feel and general wearability of the mouthguard 100.

For example, in one embodiment, the material of the core layer 190 may be material having a durometer in the range of 40-70, and the outer layer 194 may be formed of a material having a Shore A durometer in the range of 40-70 but having a different durometer than that of the core layer material. In one embodiment, the material of the core layer 190 has a Shore A durometer of about 65, and the material of the outer layer has a Shore A durometer of about 55. In some embodiments, a ratio of the durometer of the outer layer 194 material to the core layer 190 material may be between about 80 percent and 90 percent. In the various embodiments, the core layer 190 and outer layer 194 may be made of materials of completely different compositions, whereas in other embodiments the respective layers may be made of the same general material class but have different hardness characteristics.

In some embodiments, the core layer material may be a composite of a copolymer of ethylene and vinyl acetate (EVA), such as the Elvax™ resins commercially available from Ashland Chemical Company, and an elastomeric material such as thermoplastic rubber or vulcanized rubber. In some embodiments, the core layer material includes about 50 percent to about 80 percent by weight of the elastomeric material and about 20 percent to about 50 percent by weight of the copolymer of EVA. In some embodiments, the EVA copolymer can include vinyl acetate in the range of about 18 percent to about 28 percent by weight. In some embodiments, the core layer material is thermoplastic rubber marketed under the trademark KRATON™, which is marketed by GLS Plastics of 740B Industrial Drive, Cary, Ill. 60013. This thermoplastic rubber is unique in that it is injection moldable, FDA approved, and readily adheres with copolymers of EVA. Furthermore, the thermoplastic rubber has a melting or softening point significantly higher than that of EVA.

In various embodiments, the outer layer material is 100 percent of a copolymer of ethylene and vinyl acetate, and has at least 33 percent of vinyl acetate by weight. In various embodiments, the second material includes a copolymer of ethylene and vinyl acetate, and has at least 40 percent of vinyl acetate by weight. For example, a suitable such material is a soft EVA 40. Alternatively, another suitable material includes EVA 100. In some embodiments, the outer layer material is a suitably soft thermoplastic rubber having a durometer low enough so that the mouthguard 100 does not have to be molded to the wearer's teeth.

In some embodiments, the mouthguard 100 is a boil and bite mouthguard 100. For example, the mouthguard 100 is formed of one or more materials that soften at a temperature in the range of about 100 to about 150 degrees Fahrenheit, and the mouthguard 100 is molded to the wearer's teeth after raising the mouthguard 100 to such a temperature, for example, by immersing the mouthguard 100 in boiling water. In some embodiments, the mouthguard 100 is molded to the wearer's teeth at room temperature.

In some embodiments, the mouthguard 100 includes one or more flavoring compounds. Such flavoring compounds may include, for example, flavoring oils or sweeteners, or combinations thereof. For example, in one embodiment, the material of the lateral bite wings 110a, 110b and/or the conduit 115 may include a flavoring compound blended throughout. Furthermore, in embodiments in which the mouthguard 100 is a multi-layer construction, the various flavoring compounds can be selectively included in different layers/components to facilitate manufacturability and/or improve the taste-enhancing function of the mouthguard 100.

In one embodiment, a flavoring oil is blended into the material forming the outer layer 194 of the conduit 115 and the lateral bite wings 110a, 110b, while keeping these layers free of sweeteners, while a sweetener, but not a flavoring oil, is blended throughout the material forming the core layer 190. In another embodiment, this arrangement is reversed, e.g., a sweetener-free flavoring oil is blended into the material forming the core layer 190, and one or more sweeteners alone (i.e., without any other flavoring compound) is blended into the material forming the outer layer 194 of the conduit 115 and the lateral bite wings 110a, 110b.

FIGS. 9-10 are plan and sectional elevation views, respectively, of an alternative mouthguard 100′ according to another embodiment. Except as described herein, the mouthguard 100′ is substantially the same in construction as the multi-layer embodiments of the mouthguard 100 described previously. As can be seen in FIGS. 9-10, however, the mouthguard 100′ has a composite lip shield member 120′ that includes a support wall 200 having a rear surface 204 (that corresponds to the rear face 123 of the lip shield member 120 in the mouthguard 100), and a front surface 208. In the illustrated embodiment, the front surface 208 of the support wall 200 also includes a recessed region 212.

The lip shield member 120′ further includes a preform 216 secured to the support wall 200. The preform 216 is a structurally separate component that is pre-fabricated in a predetermined shape and secured to the support wall 200 in a separate manufacturing step from the formation of the support wall 200. In the illustrated embodiment, the preform 216 includes a preform wall 220, a preform opening 224 and a preform projection 230 extending rearward from the preform wall 220 around an inner periphery of the preform opening 224. Additionally, the preform wall 220 defines a forward-facing outer surface 234. As shown, the preform opening defines the front opening 162 of the air channel 158. Additionally, the outer surface 234 partially defines the front face 122 of the lip shield member 120′.

As can be seen in FIG. 10, in the particular embodiment illustrated, the preform wall 220 is shaped and positioned to generally conform to the front surface 208 of the support wall 200. Additionally, in the illustrated embodiment, the preform wall 220 is disposed within the recessed region 212 of the support wall 200, and the preform projection 230 extends rearwardly to generally abut a forward end of the core layer 190 of the conduit 115. Positioning the preform wall 220 within the recessed region 212 can operate to provide a mechanical interlock between the preform 216 and the support wall 200. In other embodiments, however, the front surface 208 of the support wall 200 lacks the recessed region 212, and the preform wall 220 extends over the entire forward extent of the support wall 200.

The particular mechanical properties of the preform 216 can be tailored as desired. In one embodiment, the preform has substantially comparable flexibility to the support wall 200. In other embodiments, the preform 216 can be formed of a relatively rigid material as compared to the support wall 200. In various embodiments, the use of the preform 216 advantageously allows for improved manufacturing of designs into the front face 122 of the lip shield member 120′. For example, the preform 216 can be formed of a material that readily accepts printed designs and/or surface treatments (e.g., chrome-like surfaces and the like), particularly as compared to the materials making up the support wall 200 or other components of the mouthguard 100′. In one such embodiment, the preform can be made from polypropylene or polycarbonate. It is emphasized, however, that these materials are exemplary only, and that the skilled artisan will recognize that other suitable materials may be used.

In embodiments, the preform 216 can be secured to the support wall 200 and the conduit 158 by an adhesive. In other embodiments, the preform 216 can be mechanically bonded to the support wall 200 and other components of the mouthguard 100′ by a covalent bond between these components, through appropriate material selection. In still other embodiments, the preform 216 can be mounted into the molding apparatus prior to formation of the support wall 200, and the support wall 200 may be subsequently overmolded to the preform 216. As will be appreciated, the particular manufacturing process or steps utilized to form and/or assemble the mouthguard 100′ are not critical to the overall design and functionality thereof.

FIGS. 11-16 illustrate, collectively, embodiments of an alternative mouthguard 300, that is in many respects similar or identical to the mouthguards 100, 100′ described herein. As such, the skilled artisan will understand that various components of the mouthguard 300 can be configured and formed in substantially the same manner as the corresponding elements of the mouthguards 100, 100′, except where specifically described in connection with the mouthguard 300.

As shown in FIGS. 11-16, collectively, the mouthguard 300 includes a pair of spaced-apart lateral bite wings 310a, 310b, a conduit 315 having a forward end 316 and a rearward end 318, and a flange 320 having a front face 322 and a rear face 323. As shown, the lateral bite wings 310a, 310b define, respectively, upper teeth-engaging surfaces 324a, 324b, and lower teeth-engaging surfaces 328a, 328b, and have respective forward portions 330a, 330b and opposite rearward portions 332a, 332b. As further shown, the conduit 315 is disposed between the forward portions 330a, 330b of the lateral bite wings 310a, 310b, and the flange 320 is disposed about and extends radially outward with respect to the forward end 316 of the conduit 315.

In the illustrated embodiment, the lateral bite wings 310a, 310b include, respectively, border portions 334a, 334b disposed along the outer periphery thereof. As further illustrated, in this embodiment, the border portions 334a, 334b include, respectively, upper side walls 336a, 336b that project upward with respect to the upper teeth-engaging surfaces 324a, 324b, and lower side walls 337a, 137b that project downward with respect to the lower teeth-engaging surfaces 328a, 328b. In the particular mouthguard 300 the border portions 334a, 334b are structurally distinct elements than the lateral bite wings 310a, 310b (e.g., are formed in a separate manufacturing step, as will be explained in further detail herein), in other embodiments, the lateral bite wings 310a, 310b may lack distinct border portions 334a, 334b. In such embodiments, the upper and lower side walls 336a, 336b, and 337a, 337b may be integrally formed with the lateral bite wings 310a, 310b, respectively. Still alternatively, the upper side walls 336a, 336b, and/or the lower side walls 337a, 337b may be omitted.

As further shown, in the illustrated embodiment, the mouthguard 300 includes an upper rim 340 and a lower rim 342, as well as protrusions 344. As illustrated, the upper rim 340 extends upward with respect to the upper teeth engaging surfaces 324a, 324b along the rearward end 318 of the conduit 315 and portions of the inner edges of the lateral bite wings 310a, 310b. Additionally, the lower rim 342 extends downward with respect to the lower teeth engaging surfaces 328a, 328b along the rearward end 318 of the conduit 315 and portions of the inner edges of the lateral bite wings 310a, 310b. Still additionally, the protrusions 344 are formed on the upper and lower teeth engaging surfaces 324a, 324b and 328a, 328b.

When present, the upper and lower side walls 336a, 336b, and 337a, 337b, and the upper and lower rims 340, 342, can operate to enhance the fit of the mouthguard 300 and to maintain the mouthguard 300 in place in the wearer's mouth when in use. Additionally, the protrusions 344 can operate to enhance engagement between the teeth engaging surfaces 324a, 324b, 328a, 328b and the user's teeth. It is emphasized, however, that in various embodiments, any or all of the side walls 336a, 336b, and 337a, 337b, the upper and lower rims 340, 342 and the protrusions 344 may be omitted.

The conduit 315 has an upper wall 350 disposed generally upward of the lateral bite wings 310a, 310b, and a lower wall 354 disposed generally downward of the lateral bite wings 310a, 310b. As shown, the upper and lower walls 350, 354 extend between the forward and rearward ends 316, 318 of the conduit 315. The conduit 315 defines an air channel 358 having a front opening 362 at the forward end 316 of the conduit 315, and a rear opening 364 at the rearward end 318 of the conduit 315.

In the embodiment shown, the upper wall 350 defines an upper incisor engaging surface 370 located proximate the rearward end 318 of the conduit 315, and the lower wall 354 defines a lower incisor engaging surface 374 located proximate the rearward end 318 of the conduit 315. Additionally, the upper wall 350 further defines an upper lip engaging surface 380 between the upper incisor engaging surface 370 and the forward end 316 of the conduit, and the lower wall 354 defines a lower lip engaging surface 384 between the lower incisor engaging surface 374 and the forward end 116 of the conduit 315.

In the various embodiments, the upper and lower walls 350, 354 of the conduit 315 are arranged to taper inward from the forward end 316 toward the rearward end 318 of the conduit 315. As such, the distance between the upper and lower walls 350, 354 at the forward end 316 of the conduit 315 is greater than the corresponding distance between the upper and lower walls 350, 354 at the rearward end 318 of the conduit 315. Consequently, as can be seen in particular in FIG. 16, the front opening 362 of the air channel 358 has a larger cross-sectional area than the rear opening 364 of the air channel 158.

In the illustrated embodiment, the conduit 315 includes an interior wall 386 extending from the lower wall 354 to the upper wall 350 within the air channel 358. In the particular embodiment shown, the interior wall 386 extends from the rearward end 318 of the conduit 315 (and consequently, from the rear opening 364 of the air channel 358) forward toward the forward end 316 of the conduit 315. As such, in this embodiment, the inner wall 386 is positioned to bifurcate the rearward region of the air channel 358. In other embodiments, the interior wall 386 may extend substantially the entire length of the conduit 315 and the air channel 358 (effectively forming two discrete air channels). In other embodiments, additional interior walls may be present. In still other embodiments, the interior wall 386 may be omitted altogether. When present, the interior wall 386 operates to provided structural support to the conduit 315, thereby inhibiting crushing of the conduit 115 during use.

In the illustrated embodiment, the flange 320 includes a slot 388 for receiving a tether (not shown), which may be secured to a facemask or other feature of a helmet. In other embodiments, the slot 388 may be omitted.

In the illustrated embodiment, as can perhaps be best seen in FIG. 16, the conduit 115 is a multi-layer construction, and includes a core layer 390 that generally defines the tapered geometry of the conduit 315 and the air channel 358. Surrounding the core layer 390 is an outer layer 394. In one embodiment, the core layer 390 may be made from a higher-durometer material than the outer layer 394.

From the foregoing, it will be understood by the skilled artisan that the mouthguard 300 differs from the mouthguards 100, 100′ in that the mouthguard 300 includes the flange 320 in lieu of the lip shield members 120, 120′. The flange 320 can operate to provide radial strength to the forward end 316 of the conduit 315, and also provide for the inclusion of the tether slot 388, when desired. However, in various embodiments, the flange 320 may be omitted entirely.

FIGS. 17-18 are plan and sectional elevation views, respectively, of an alternative mouthguard 300′ according to another embodiment. Except as described herein, the mouthguard 300′ is substantially the same in construction as the multi-layer embodiments of the mouthguard 300 described previously. As can be seen in FIGS. 17-18, however, the mouthguard 300′ has a composite flange 320′ that includes a support wall 400 having a rear surface 404 (that corresponds to the rear face 323 of the flange 320 in the mouthguard 300), and a front surface 408.

The flange 320′ further includes a preform 416 secured to the support wall 400. The preform 416 is a structurally separate component that is pre-fabricated in a predetermined shape and secured to the support wall 400 in a separate manufacturing step from the formation of the support wall 400. In the illustrated embodiment, the preform 416 includes a preform wall 420, a preform opening 424 and a preform projection 430 extending rearward from the preform wall 420 around an inner periphery of the preform opening 424. Additionally, the preform wall 420 defines a forward-facing outer surface 434. As shown, the preform opening defines the front opening 462 of the air channel 358. Additionally, the outer surface 434 defines the front face 322 of the flange 320′.

As can be seen in FIG. 18, in the particular embodiment illustrated, the preform wall 420 is shaped and positioned to generally conform to the front surface 408 of the support wall 400. Additionally, in the illustrated embodiment, the preform wall 420 extends over substantially the entire front surface 408 of the support wall 400, and the preform projection 430 extends rearwardly to generally abut a forward end of the core layer 390 of the conduit 315. In other embodiments, however, the preform wall 420 may be disposed within a recessed region of the front surface 408 of the support wall 400, similar to the configuration of the mouthguard 100′ described herein.

FIG. 19 is a perspective view of an additional alternative mouthguard 500 according to various embodiments. As shown, the mouthguard 500 includes the mouthguard 300, 300′ and a removable, interchangeable lip shield member 520, 520′. FIG. 19 shows the mouthguard 500 in a partially assembled state. The lip shield member 520 or 520′, as the case may be, can be of substantially the same construction and design as the lip shield members 120, 120′ described elsewhere herein, but can be separately assembled about the flange 320, 320′ by the user, e.g., by urging the lateral bite wings 310a, 310b toward one another to allow the lip shield member 520, 520′ to be slid into place and coupled to the flange 320, 320′. The lip shield member 520, 520′ can subsequently be removed and a different lip shield member 520, 520′ (e.g., with a different design imprinted thereon) can be installed.

Various methods and fabrication steps can be employed to form the mouthguards 100, 100′, 300, 300′ and 500. Generally speaking, the respective mouthguard elements described herein can be formed by conventional molding processes typically used for forming mouthguards and elements thereof.

In one embodiment of a multi-layer mouthguard 100, 100′, 300, 300′ or 500, the core layer can first be formed by a molding process. In one embodiment, the core layer may be molded in a first material having a first durometer. Thereafter, the outer layer may be molded over the core layer. In embodiments, the outer layer may be formed of a second material different than the first material. In one embodiment, the second material has a lower durometer than the first material. In other embodiments, the outer layer may be formed of the first material, but still formed in a separate step from the core layer.

In embodiments, the lateral bite wings can be formed by a molding process. The lateral bite wings may be molded in the same molding step as the outer layer and thus be formed of the same material as the outer layer. In other embodiments, the lateral bite wings may be formed subsequent to the forming of the outer layer, and of either the same or a different material.

In embodiments, the lip shield member or the flange, as the case may be, can be formed in the same molding process as the lateral bite wings and/or the outer layer of the conduit. In other embodiments, the lip shield member or flange is formed in a third molding step of a third material, which may have a different durometer from that of the outer layer of the conduit and/or the lateral bite wings.

In embodiments in which the lateral bite wings have structurally separate border portions, the border portions can be formed in a separate molding step. In one embodiment, the border portions are formed of the third material (i.e., the same material forming the lip shield member or the flange).

In embodiments of the mouthguard 100′ or 300′, the preform can be secured to the lip shield member or the flange, respectively. In other embodiments, the lip shield member or the flange can be overmolded about the preform.

In short, the multi-layer mouthguard embodiments allow for a wide range of manufacturing processes and steps.

Various other modifications and additions can be made to the exemplary embodiments discussed without departing from the scope of the present invention. For example, while the embodiments described above refer to particular features, the scope of this invention also includes embodiments having different combinations of features and embodiments that do not include all of the above described features.

Claims

1. A mouthguard comprising: a pair of spaced lateral bite wings, each having an upper teeth engaging surface, a lower teeth engaging surface, a forward portion and a rearward portion;a conduit disposed between the forward portions of the lateral bite wings, the conduit having a forward end, a rearward end, and upper and lower walls extending between the forward and rearward ends of the conduit, the conduit defining an air channel extending therethrough from the forward end to the rearward end, the air channel having a front opening at the forward end of the conduit and a rear opening at the rearward end of the conduit;an upper incisor engaging surface and a lower incisor engaging surface, defined by the upper and lower walls, respectively, the upper and lower incisor engaging surfaces being located proximate the rearward end of the conduit,a front lip shield member disposed about and extending radially outward with respect to the forward end of the conduit, wherein the front lip shield member includes a rear face positioned and shaped to confront an outer surface of a user's lips when in use,an interior wall within the air channel, the interior wall extending from the lower wall of the conduit to the upper wall of the conduit, the interior wall being located between the upper and lower incisor engaging surfaces;wherein the mouthguard is a multi-layer construction, the upper teeth engaging surface and the lower teeth engaging surface of one of the lateral bite wings comprises a first polymer and the front lip shield member comprises a second polymer, and further comprising a first border portion disposed along an outer periphery of the one of the lateral bite wings, wherein the first border portion comprises the second polymer and is integrally formed with the front lip shield member.

2. The mouthguard of claim 1, wherein the interior wall comprises the first polymer.

3. The mouthguard of claim 2, wherein the interior wall is spaced apart from the front opening of the air channel.

4. The mouthguard of claim 3, wherein the interior wall bifurcates a rearward region of the air channel.

5. The mouthguard of claim 2, wherein the interior wall bifurcates a rearward region of the air channel.

6. The mouthguard of claim 1, wherein the interior wall is spaced apart from the front opening of the air channel.

7. The mouthguard of claim 6, wherein the interior wall bifurcates a rearward region of the air channel.

8. The mouthguard of claim 1, wherein the upper teeth engaging surface and the lower teeth engaging surface of the other of the lateral bite wings comprises the first polymer, and further comprising a second border portion disposed along an outer periphery of the other of the lateral bite wings, wherein the second border portion comprises the second polymer and is integrally formed with the front lip shield member.

9. The mouthguard of claim 1, wherein the interior wall bifurcates a rearward region of the air channel.

10. A mouthguard comprising: a pair of spaced lateral bite wings, each having an upper teeth engaging surface, a lower teeth engaging surface, a forward portion and a rearward portion;a conduit disposed between the forward portions of the lateral bite wings, the conduit having a forward end, a rearward end, and upper and lower walls extending between the forward and rearward ends of the conduit, the conduit defining an air channel extending therethrough from the forward end to the rearward end, the air channel having a front opening at the forward end of the conduit and a rear opening at the rearward end of the conduit;an upper incisor engaging surface defined by the upper wall proximate the rearward end of the conduit;an upper lip engaging surface defined by the upper wall and located between the upper incisor engaging surface and the forward end of the conduit;a lower incisor engaging surface defined by the lower wall proximate the rearward end of the conduit;a lower lip engaging surface defined by the lower wall and located between the lower incisor engaging surface and the forward end of the conduit; andan interior wall disposed within the air channel, the interior wall extending from the lower wall of the conduit to the upper wall of the conduit, the interior wall being located between the upper and lower incisor engaging surfaces;wherein the mouthguard is a multi-layer construction, the upper teeth engaging surface and the lower teeth engaging surface of one of the lateral bite wings comprises a first polymer, and further comprising a first border portion disposed along an outer periphery of the one of the lateral bite wings, wherein the first border portion comprises a second polymer.

11. The mouthguard of claim 10, wherein the interior wall comprises the first polymer.

12. The mouthguard of claim 11, wherein the interior wall is spaced apart from the front opening of the air channel.

13. The mouthguard of claim 12, wherein the interior wall bifurcates a rearward region of the air channel.

14. The mouthguard of claim 11, wherein the interior wall bifurcates a rearward region of the air channel.

15. The mouthguard of claim 10, wherein the interior wall is spaced apart from the front opening of the air channel.

16. The mouthguard of claim 15, wherein the interior wall bifurcates a rearward region of the air channel.

17. The mouthguard of claim 10, wherein the upper teeth engaging surface and the lower teeth engaging surface of the other of the lateral bite wings comprises the first polymer, and further comprising a second border portion disposed along an outer periphery of the other of the lateral bite wings, wherein the second border portion comprises the second polymer.

18. The mouthguard of claim 10, wherein the interior wall bifurcates a rearward region of the air channel.