PROTECTIVE FACE SHIELD ATTACHABLE TO HEADWEAR

STATEMENT RE: FEDERALLY SPONSORED RESEARCH/DEVELOPMENT

Not Applicable

BACKGROUND
1. Technical Field

The present disclosure relates generally to a protective face shield, and more specifically, to a protective face shield connectable to a headwear of a user.

2. Description of the Related Art

It is known that communicable disease can be transferred from one person to another. Indeed, certain viruses and bacteria can become airborne when an infected individual sneezes or coughs. Those airborne particles, which may include virus or bacteria droplets, may be inhaled by another individual, thereby infecting the individual. The virus and bacteria may also fall onto a surface, which may be subsequently touched by an individual. Should that individual touch his mouth, nose, or eyes, the virus or bacteria may pass to that individual.

The COVID-19 pandemic resulted in many jurisdictions issuing restrictions or stay-at-home orders to combat the spread of the highly infectious disease. While staying at home may provide protection for those individuals who have the ability to stay home, health care workers are needed on the front lines to combat the disease, and thus, may have an elevated degree of exposure to the disease. Accordingly, the use of adequate personal protective equipment (PPE), such as face masks, face shields, face coverings, gowns and gloves are critical in ensuring the safety of the healthcare professionals, while also mitigating the spread of the disease.

While PPE is critical to healthcare workers treating patients with the disease, there is also a desire to ease stay-at-home restrictions in a safe and calculated manner. It has been recommended that in order to ease such restrictions, the use of masks and face shields may be adopted to certain degrees on a society-wide level. See Moving Personal Protective Equipment Into the Community, Eli Perencevich, Daniel Diekema, Michael Edmond, JAMA, Apr. 29, 2020. For instance, states, airlines, retail stores, or other commercial or public establishments may mandate face masks or “face coverings” as they reopen.

Commonly used face masks include N95 masks, which may filter approximately 95% of airborne contaminants, and cloth face masks, which may filter approximately 2% of airborne contaminants. Although such masks may provide a certain level of protection to a user, face shields may be more effective is protecting the wearer and slowing the spread of communicable disease. Face shields generally extend over the eyes, nose and mouth of the wearer, and thus, typically provide a greater amount of coverage when compared to conventional medical masks. Furthermore, face masks may be limited in their durability and lifespan, whereas face shields may be reused indefinitely and can be easily cleaned with common household disinfectants. Face shields are also preferable to the typical face mask because the configuration of face shields may reduce the likelihood of potential autoinoculation by preventing the wearer from touching their face.

Accordingly, there is a need in the art for an improved face shield that which can be easily and comfortably worn to mitigate the spread of contaminants. Various aspects of the present disclosure address this particular need, as will be discussed in more detail below.

BRIEF SUMMARY

In accordance with one embodiment of the present disclosure, there is provided a low-cost, unitary, protective shield for use with headwear having a brim and wearable by a user, the protective shield comprising a panel having an elongate slot formed therein and sized to receive the brim of the headwear to facilitate attachment of the protective shield to the headwear. The panel additionally includes an upper suspension strap portion and a lower protective portion configured to extend over the user's eyes, nose, and mouth when the protective shield is attached to the headwear. The lower protective portion and the upper suspension strap portion are on opposite sides of the elongate slot. The panel additionally includes at least one lateral tab engageable with the headwear.

The at least one tab may include an adhesive thereon to facilitate engagement with the headwear.

The suspension strap portion may include an upper edge and an opposing lower edge to define a strap height therebetween, the strap height may preferably be between 0.20 inches and 0.40 inches.

The panel may have a haze level that is preferably less than 2%.

The protective shield may additionally include a layer of silver disposed on the panel.

The upper suspension strap portion may include a lower edge and the lower protective portion may include an upper edge. A slot height may be defined as a distance between the lower edge and the upper edge, with the slot height preferably being between 0.05 inches-0.13 inches.

The elongate slot may be sized to include a region that extends below the brim when the brim is received within the elongate slot, such that the region facilitates ventilation to permit air flow across the back surface of the lower protective portion to reduce fogging caused by user breath exhalation.

The lower protective portion or the upper suspension strap portion may include friction elements extending into the elongate slot to facilitate frictional engagement with the brim when the brim is inserted into the elongate slot.

The upper suspension strap portion and the lower protective portion may be configured such that a lower edge of the suspension strap portion may contact an upper edge of the protective portion when the brim is removed from the elongate slot, and the lower edge of the upper suspension strap portion may be spaced from the upper edge of the lower protective portion when the brim is received within the elongate slot.

The protective shield may additionally include a centering notch formed on the upper suspension strap portion.

According to another embodiment, there is provided a protective shield for use with headwear having a brim. The protective shield includes a unitary panel having a slot, an upper region, a lower region, and at least one lateral tab. The upper region and the lower region are separated by the slot, with the slot being sized to receive the brim of the headwear. The upper and lower regions are positioned on opposite sides of the brim when the brim is received within the slot. The lower region is sized to extend over the eyes, nose and mouth of a user when the brim is received in the slot and the headwear is worn on the user's head. The at least one tab is engageable with the headwear.

The protective shield may include a peripheral frame coupled to the unitary panel adjacent a peripheral edge thereof. The peripheral frame may be bendable and configured to assume a desired configuration.

According to another embodiment, there is provided a method of forming a protective shield for use in combination with headwear having a brim. The method includes the step of cutting a sheet of an optically clear material to form a unitary panel having a slot, an upper region, a lower region, and at least one lateral tab.

The method may include the step of printing a band adjacent at least a portion of a peripheral edge of the unitary panel.

According to another embodiment, there is provided a method of wearing a protective shield in combination with headwear having a brim. The method includes aligning the protective shield with the brim. The protective shield includes a panel having an elongate slot formed therein and sized to receive the brim of the headwear to facilitate attachment of the protective shield to the headwear. The panel additionally includes an upper suspension strap portion and a lower protective portion configured to extend over the user's eyes, nose, and mouth when the protective shield is attached to the headwear. The lower protective portion and the upper suspension strap portion are on opposite sides of the elongate slot. The panel additionally includes at least one lateral tab engageable with the headwear. The method further includes inserting the brim through the slot to connect the headwear to the protective shield.

The method may also include the step of adhering the at least one tab to the headwear.

The method may further include the step of adjusting a position of the protective shield along the brim.

The method may additionally include removing the headwear from the user's head without touching the protective shield.

The protective shield may transition from a generally planar configuration to a generally arcuate configuration in response to the brim being inserted through the slot.

According to another embodiment, there is provided a method of connecting a protective shield to headwear having a brim and a main head portion. The method includes aligning the protective shield with the brim. The protective shield includes a panel having an elongate slot formed therein and sized to receive the brim of the headwear to facilitate attachment of the protective shield to the headwear. The panel additionally includes an upper suspension strap portion and a lower protective portion configured to extend over the user's eyes, nose, and mouth when the protective shield is attached to the headwear. The lower protective portion and the upper suspension strap portion are on opposite sides of the elongate slot. The panel additionally includes at least one lateral tab engageable with the headwear. The method also includes positioning the protective shield in close proximity to the main head portion of the headwear such that the protective panel is positioned relative to the user's eyes to urge the user to view through the protective panel and focus on an object beyond the panel and mitigate the user from focusing directly on the protective panel.

The method may also include the step of engaging the at least one lateral tab to the headwear to fix the position of the protective shield relative to the headwear.

According to another embodiment, there is provided a protective shield for use with headgear. The protective shield includes a unitary panel having a protective portion including a first surface and an opposing second surface. The unitary panel additionally includes at least one lateral tab extending from the protective portion and connectable to the headgear. The protective portion is sized to extend over the eyes, nose, and mouth of a user when the at least one lateral tab is connected to the headgear and the headgear is worn on the user's head. The unitary panel is selectively connectable to the headgear in at least one of a first configuration and a second configuration. In the first configuration, the at least one lateral tab is connected to the headgear such that the first surface assumes a convex configuration and faces away from the user. In the second configuration, the at least one lateral tab is connected to the headgear such that the first surface assumes a concave configuration and faces toward from the user.

The protective shield may additionally include an adhesive extending over the at least one lateral tab. The at least one lateral tab may include a pair of lateral tabs. The protective shield may additionally include a centering notch formed within the panel and located between the pair of lateral tabs.

The unitary panel may include a slot extending therethrough, with the slot being sized to receive a portion of the headgear.

The protective portion may be transparent.

According to another embodiment, there is provided a method of using a protective shield with headgear having an inner surface configured to face a user's head when the headgear is worn by the user. The method includes attaching the protective shield to the inner surface of the headgear. The protective shield includes a protective portion configured to extend over the user's eyes, nose, and mouth when the protective shield is attached to the headgear and the headgear is worn by the user. The protective shield additionally includes at least one lateral tab coupled to or extending from the protective portion, and an adhesive extending over a portion of the at least one lateral tab. The at least one lateral tab is attached to the inner surface of the headgear via the adhesive.

The adhesive may extend over a first side of the at least one lateral tab, and the method may additionally include positioning the protective shield such that the first side of the at least one lateral tab faces the inner surface of the headgear.

The method may further comprise the step of placing the adhesive on the at least one lateral tab.

The method may also include placing the headwear on the user's head, such that the at least one lateral tab extends between a portion of the headwear and the user's head.

According to yet another embodiment, there is provided a protective shield for use with a first type of headgear having a brim and a second type of headgear not necessarily having a brim, but including an inner surface that may contact the user's head. The protective shield includes a unitary panel having a slot, an upper region, a lower region, at least one lateral tab, and an adhesive on the at least one tab, with the upper region and the lower region being separated by the slot. The unitary panel is configurable for use in a first configuration for attachment to the first headgear and a second configuration for attachment to the second headgear. In the first configuration, the slot is advanceable over the brim such that the slot receives the brim of the headgear, and the upper and lower regions are positioned on opposite sides of the brim when the brim is received within the slot. The lower region is sized to extend over the eyes, nose and mouth of a user when the brim is received in the slot and the first headgear is worn on the user's head. In the second configuration, the at least one tab is engageable with the inner surface of the second headgear via the adhesive, and the lower region is sized to extend over the eyes, nose and mouth of a user when the at least one tab is attached to the second headgear and the second headgear is worn on the user's head.

The unitary panel may include a first surface and an opposing second surface, and may be configured such that when the unitary panel is in the first configuration, the first surface faces the user when worn, and when the unitary panel is in the second configuration, the second surface faces the user when worn.

The present disclosure will be best understood by reference to the following detailed description when read in conjunction with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

These and other features and advantages of the various embodiments disclosed herein will be better understood with respect to the following description and drawings, in which:

FIG. 1 is an upper perspective view of a protective face shield connected to a brim of a cap;

FIG. 2 is a front view of the protective face shield and cap of FIG. 1;

FIG. 3 is a side view of the protective face shield and cap of FIG. 1;

FIG. 4 is another upper perspective view of the protective face shield attached to a cap;

FIG. 5 is a front view of the protective face shield attached to the cap, and illustrating a ventilation opening formed by the brim and the protective face shield, with the opening being underneath the brim to facilitate ventilation;

FIG. 6 is a front view of an uninstalled protective face shield having a darkened peripheral edge region;

FIG. 7 is an upper perspective view of the face shield of FIG. 6 installed on a hat worn by a user;

FIG. 8 is a front view of a protective face shield having a peripheral frame attached to a main panel;

FIG. 9 is a cross sectional view of the protective face shield of FIG. 8;

FIG. 10 is a cross sectional view of a protective face shield having a laminated foil adjacent a peripheral edge of a main panel;

FIG. 11 is a plan view of the protective face shield;

FIG. 12 is a front view of another embodiment of a protective face shield having friction elements extending into a brim-receiving slot;

FIG. 13 is a front view of another embodiment of a protective face shield having a brim-receiving slit;

FIG. 14 is a front view of another embodiment of a protective face shield having a brim-receiving slot in a saw-tooth configuration;

FIG. 15 is a front view of another embodiment of a protective face shield having a perforated slot to allow for customization of an effective length thereof;

FIG. 16 is a front view of a protective face shield connected to a headband via an interior mount configuration;

FIG. 17 is a front view of a protective face shield connected to a beanie via an interior mount configuration; and

FIG. 18 is a lower perspective view of the protective face shield connected to the head band via the interior mount configuration.

Common reference numerals are used throughout the drawings and the detailed description to indicate the same elements.

DETAILED DESCRIPTION

The detailed description set forth below in connection with the appended drawings is intended as a description of certain embodiments of a protective face shield and is not intended to represent the only forms that may be developed or utilized. The description sets forth the various structure and/or functions in connection with the illustrated embodiments, but it is to be understood, however, that the same or equivalent structure and/or functions may be accomplished by different embodiments that are also intended to be encompassed within the scope of the present disclosure. It is further understood that the use of relational terms such as first and second, and the like are used solely to distinguish one entity from another without necessarily requiring or implying any actual such relationship or order between such entities.

Referring now to the drawings wherein the showings are for purposes of illustrating preferred embodiments of the present disclosure, and are not for purposes of limiting the same, there is depicted a protective face shield, i.e., face covering, specifically configured and adapted to be attached to and supported upon a cap or other headgear worn by a user. When attached to the cap, the protective face shield may extend over a wearer's face to provide protection against contaminants, airborne droplets, particles, dust, debris, or the like. The face shield may include a transparent panel that provides protection to the wearer, but also allows a wearer to look therethrough without substantially inhibiting the wearer's vision. In this regard, the face shield may be mounted on the cap or headgear such that the face shield is positioned in close proximity to the user's eyes to allow the user to easily view through the face shield and focus on an object beyond the face shield, rather than focusing on the face shield itself. The face shield may also include one or more tabs that may be connected to the headgear to prevent inadvertent slippage or movement of the face shield relative to the headwear once the face shield is in a desired position relative to the headgear.

Referring now specifically to FIGS. 1-5, there is provided a first embodiment of a protective face shield 10 wearable by a user. The face shield 10 may be formed from a unitary panel that may be cut, or otherwise formed, to define a particular configuration and have certain features to facilitate connection of the face shield 10 to headgear and to provide a protective layer over the wearer's face. The face shield 10 may include a transparent protective portion 12 sized and configured to extend over a wearer's face. The transparent protective portion 12 is optically clear, and thus, may have very little or no perceptible visible distortion or scatter when viewed through by the user. An optically clear material may be transparent and/or colorless, but in some circumstances, a material that has a hue, shade, or a tint, for example, can be considered optically clear. It is also contemplated that in some embodiments, the optically clear material may include a heat-rejection coating applied thereto.

The protective portion 12 may include a curved, arcuate, or tapered outer peripheral edge 14 that is wider at the top of the protective portion 12, and narrower at the bottom of the protective portion 12. The tapered peripheral contour of the protective portion 12 may allow for freedom of movement of the user's head without the protective portion 12 adversely contacting the user's body. In particular, the tapered peripheral contour may allow a user to turn the user's head from side-to-side without the protective portion 12 contacting the user's shoulders. Furthermore, the tapered peripheral contour may also allow a user to tip the user's head downwardly without the protective panel contacting the user's chest. The tapered configuration may also allow for cross-air flow between the face shield 10 and the user for easier breathing and to providing cooling to the user. The protective portion 12 may additionally include an upper edge 16, which partially defines a slot 18 sized to receive a brim 20 of a cap 22, as will be described in more detail below.

The protective portion 12 may have a thickness (e.g., a distance between an inner surface and an outer surface) of preferably 5-30 mil, more preferably 7-20 mil, still more preferably 10-15 mil, and every more preferably 15 mil, although other thicknesses may be used without departing from the spirit and scope of the present disclosure. In this regard, the thickness of the protective portion 12 may be thick enough to have desired stiffness and rigidity, while keeping the haze preferably below 2%. The preferred thickness of 15 mil may provide desired optical qualities (e.g., low haze, high visible transmission, ideal color, i.e., non-yellow, and uniform thickness), rigidity and stiffness, tensile strength. The 15 mil preferred thickness may also result in a panel that is lightweight, formable, printable, capable of roll to roll converting, capable of rotary die converting, capable of roll to roll flexographic printing, and provides UVA/UVB protection.

The protective portion 12 may be formed from a polycarbonate film, such as LEXAN™ 8010, or an optical polyethylene terephthalate (PET) material, thermoplastic polyurethane (TPU), polyphenylsulfone (PPSU), acrylic (e.g., plexiglass), PETA (grade of polyester) or PETG (grade of polyester), although other materials known in the art may also be used.

The protective portion 12 is sized and configured to extend over a user's face, and in particular, the mouth, nose, and eyes of the user's face to protect the user's face from a contaminant, such as a virus or bacteria. For instance, the protective face shield 10 may be used in a medical capacity, and thus, the protective portion 12 may be sized to protect a medical professional from potential contaminants associated with a sneeze or cough of a potentially infected patient.

Referring now to FIGS. 6-7, the protective portion 12 may include a peripheral edge region 23 that may be printed or coated to provide a contrast with the central region of the protective portion. The printing or coating may be black, or other any other color, and extend adjacent or along the peripheral edge. It is also contemplated that the peripheral edge region 23 may be printed or coated with a reflective material or include a reflective tape for use of the protective face shield 10 at night, such for use in construction or security at night.

In one embodiment, the protective portion 12 may be formed from, or include, an antimicrobial film or configuration which prevents transmission of bacteria or other contaminants therethrough. The antimicrobial configuration may include a layer or laminate of a silver material, such as silver oxide. It is also contemplated that the outer surface of each layer may have a surface configuration that prevents micro-organisms from attaching thereto. It is also contemplated that the protective portion 12 may have a UV additive applied thereto to protect against UV light. The inner surface of the protective portion 12 may additionally be coated with an anti-fogging substance to mitigate fogging resulting from the user's breath during use.

It is also contemplated that the inner surface and/or the outer surface of the protective portion 12 may be coated with an anti-reflective coating or with Motheye anti-reflective material, such as MOSMITE™ sold by Mitsubishi Chemical, or other Motheye materials known by those skilled in the art.

Although the exemplary embodiment includes a protective portion 12 that is a single layer, it is contemplated that other embodiments of the face shield 10 may include a stack of layers, with at least one peeleable layer that may be peeled away from an underlying layer when contaminated. For more information regarding an example of the peelable layers and the adhesive used to interconnect the layers, please refer to U.S. Pat. No. 10,321,731 entitled Adhesive Mountable Stack of Removable Layers, as well as U.S. Pat. No. 6,388,813 entitled Optical Stack of Laminated Removable Lenses for Face Shields Windows and Displays, the contents of both of which are expressly incorporated herein by reference.

The face shield 10 may be used with a user's existing headwear, including a baseball-style cap, a construction hat, a visor, or other headgear or headwear known in the art. As used herein, the terms headgear and headwear are interchangeable. The face shield 10 includes several features which facilitate engagement with a cap 22. In the exemplary embodiment, the face shield 10 includes a suspension strap portion 24, and at least one attachment tab 26. The suspension strap portion 24 is an elongate structure connected to the protective portion 12 at peripheral side portions of the face shield 10, and which is configured to extend above the brim 20 of the cap 22 during use. In this regard, the suspension strap portion 24 may be of sufficient strength to support the weight of the face shield 10 on the cap 22. The suspension strap portion 24 includes a lower edge 28 that is opposite the upper edge 16 of the protective portion 12. The suspension strap portion 24 additionally includes an upper edge 30 such that a strap thickness is defined as the distance between the lower and upper edges 28, 30 of the suspension strap portion 24. The strap thickness may preferably be between ¼″-⅜″, which may be thin enough to conform to differences in cap configuration. The suspension strap portion 24 may optionally include a centering notch 25 or other indicia or marking that indicates a center of the suspension strap portion 24. The centering notch 25 may be located equidistantly between the attachment tabs 26 and may be used to facilitate centering of the protective face shield 10 on the headwear. Along these lines, the headwear may include a seam or other marking that may be representative of the center of the headwear, and which may be visually aligned with the centering notch 25 which placing the protective face shield 10 on the headwear.

The exemplary embodiment includes a pair attachment tabs 26 may positioned on opposite sides of the suspension strap portion 24, such that the suspension strap portion 24 extends longitudinally between the attachment tabs 26. The attachment tabs 26 include an enlarged body that is easily grabbable and manipulatable by a user. In this regard, the attachment tabs 26 may extend upwardly beyond the suspension strap portion 24 to provide a larger structure with which a user may manipulate or handle. The inner surface of each attachment tab 26 may be coated with an adhesive to facilitate engagement of the attachment tab 26 to an outer surface of the cap or headgear 22. In this regard, the tabs 26 may allow the user to conform the face shield 10 to the configuration or contour of the particular hat to which shield 10 is being attached. Thus, the tabs 26 assist in allow the face shield 10 to be a universal face shield (e.g., usable with different hats or headgear). Although the foregoing describes adhering the tabs 26 to the headgear 22, it is contemplated that double sided tape, hook and loop fasteners (e.g., VELCRO™), or other releasable fastening systems known in the art may be used to connect the attachment tab 26 to the cap or headgear 22. Although the exemplary embodiment shows the attachment tabs 26 engageable with the outside of the cap 22, it is also contemplated that the attachment tabs 26 may extend inside the cap 22. Furthermore, it is also contemplated that the tabs 26 may be insertable into a slot formed in the headgear 22. In this regard, many forms of headgear include an internal band or layer that is connected to an outer layer of the headgear 22. One or more slots may be formed between the internal band and the outer layer to receive the tabs 26. Furthermore, although the exemplary embodiment includes a pair of attachment tabs 26, it is contemplated that other embodiments may include only one attachment tab 26, or more than one pair of attachment tabs 26.

Referring now to FIGS. 8-10, it is contemplated that the face shield 10 may include a peripheral frame attachable the protective portion adjacent a peripheral edge thereof to add stiffness to the face shield and to allow the user to adjust the curvature of the face shield 10 to conform to the user's face. In FIGS. 8-9, peripheral frame 27 is shown including a body having a u-shaped cross section is placed along the peripheral edge 14 of the protective portion 12. The body may be adhered or crimped onto the protective portion 12. The body may be bendable or flexible but does not spring back to its original shape when bent. As such, the user can bend the peripheral frame 27 into the desired curvature and the peripheral frame 27 will retain that curvature.

FIG. 10 shows another embodiment of a peripheral frame 29 that includes a laminated foil laminated to an outer surface 31 of the protective portion 12 of the face shield 10 adjacent the peripheral edge 14. The laminated foil may be bendable or flexible but does not spring back to its original shape when bent, and thus, may be used to attain a desired curvature of the protective shield 10.

To connect the face shield 10 to the cap 22, the brim 20 of the cap 22 is aligned with the slot 18, and then advanced through the slot 18. As the face shield 10 is moved onto the cap 22, the face shield 10 may transition from a generally planar configuration to an arcuate configuration to conform to the rounded or arcuate configuration of the cap 22. The face shield 10 may be moved from the front of the brim 20 toward the back of the brim 20 and the main crown portion 32 of the cap 22 (e.g., that portion of the cap 22 coupled to the brim 20). It is understood that the main crown portion 32 need not cover the entirety of the user's head, such as a visor. The exact position of the face shield 10 may be selectively adjusted in a front-to-rear direction in order to provide the most comfortable fit and view for the user. In this regard, it is contemplated that the face shield 10 may be moved in close proximity to the back of the brim 20 such that the suspension strap portion 24 contacts the main crown portion 32 of the cap 22. The suspension strap portion 24 may be flexible and capable of conforming to, or assuming, the curved or arcuate configuration of the cap 22 in response to contact with the cap 22. The suspension strap portion 24 may optionally include double sided tape connected thereto to facilitate adhering of the suspension strap portion 24 to the main crown portion 32 of the cap 22.

The arcuate configuration of the face shield 10 when attached to the cap 22 may be such that there are no folds or creases in the face shield 10, particularly within the protective portion 12, that may otherwise create visual distortions to the wearer. In this regard, the arcuate configuration or curvature of the face shield 10 may form an optically correct radius around the wearer's eyes and face.

When the protective portion 12 is positioned in close proximity to the main crown portion 32 of the cap 22 and in close proximity to the user's eyes, the user's eyes may be able to more naturally, and easily view through the protective portion 12 and focus on an object beyond the protective portion 12, rather than focusing directly on the protective portion 12. In this regard, it is understood that if the protective portion 12 were located at the free end of the brim 20 and not in close proximity to the user's eyes, there would be a tendency for the user to focus on the protective portion 12, rather than focusing on something beyond the protective portion 12. However, when the protective portion 12 is moved closer to the user's eyes, the user is more likely to naturally view through the protective portion 12 and focus on an object beyond the protective portion 12.

Another factor which may impact the positioning of the protective portion 12 may include the contours of the user's face (e.g., the user's nose), as well as any additional gear that may be worn by the user, such as eyeglasses or masks. In this regard, the protective portion 12 may be positioned such that no portion of the user's face or anything worn by the user may not contact the protective portion 12. Furthermore, it is contemplated that the angle of the protective portion 12 may be positioned such that the lower end of the protection portion 12 is titled away from the nose and mouth of the user to mitigate fogging of the protective portion 12. In this regard, by tilting the protective portion, the user's breath may be more easily vented from behind the protective portion 12 so as to reduce the likelihood of fogging.

When the face shield 10 is in the desired position relative to the cap 22, the attachment tabs 26 may be pressed against the cap 22 to adhere the tabs 26 to the cap 22 and secure the face shield 10 to the cap 22. The combination of the suspension strap portion 24 and the attachment tabs 26 may be sufficient to secure the face shield 10 to the cap 22, and thus, additional fasteners may not be required. When the face shield 10 is attached to the cap 22, the face shield 10 may extend downwardly and side-to-side over the user's eyes, nose and mouth without any creases or perforations in the protective portion 12, which may otherwise be visually distracting to the user.

The ability to attach the face shield 10 to the cap 22 via both the brim 20 and the tabs 26 provides a secure attachment between the face shield 10 and the cap 22. In this regard, the advancement of the brim 20 through the slot 18 allows for selective front-to-back placement of the face shield 10 along the brim 20. The connection of the attachment tabs 26 to the cap 22 may fix the position and angular orientation of the face shield 10 relative to the cap 22 to optimize mobility of the user's head while wearing the cap 22, enhancing ventilation and airflow, while maintaining a sanitary barrier over the user's eyes, nose and mouth.

When the face shield 10 is connected to the cap 22, the protective portion 12 may be configured such that the upper edge 16 of the protective portion 12 is spaced from the brim 20 to form an air gap 34 between the brim 20 and the protective portion 12. The air gap 34 may be sized and located to allow for a chimney effect which induces airflow on the inside of the protective portion 12 to mitigate fogging of the protective portion 12.

When the face shield 10 is attached to the cap 22, the brim 20 of the cap 22 can maintain its original functionality of providing a surface upon which a user may grab to place the cap 22 on or off the user's head. In this regard, the face shield 10 may stay on the cap 22 during successive use of the cap 22 by the user. As such, the face shield 10 may remain in position on the cap 22 during periods of nonuse and may not require subsequent repositioning during reuse.

The configuration of the face shield 10 may not interfere or obstruct logos, indicia or other ornamentation on the cap 22. In this regard, the suspension strap portion 24 may be thin enough to extend under a logo which may be located on the front of the cap 22.

The face shield 10 may be formed from a single, unitary panel of material which may be die-cut. FIG. 6 depicts an exemplary face shield 10 in a flat configuration and having several dimensions labeled thereon. The face shield 10 defines a width, W, as the distance between the lateral edges of the attachment tabs 26. The width W may preferably be between 10-16 inches, and more preferably 13.375 inches. The face shield 10 may also define a height, H, as the distance between a top surface of an attachment tab 26 and the bottom-most edge, or the tangent to the bottom-most portion, of the protective portion 12. The face shield 10 shown in FIG. 6 also includes dimensions associated with the slot 18, particularly a slot width, SW, and a slot height, SH. The slot width SW is defined as the distance the slot 18 extends longitudinally, which may be along an axis 40 generally perpendicular to a vertical axis of symmetry 42. The slot height SH may be defined as the distance between the lower edge 28 of the suspension strap portion 24, and the upper edge 16 of the protective portion 12. The slot width SW may vary between preferably 7.5-12.5 inches, and is more preferably 9.875 inches. The slot height SH may preferably be between 0.05 inches-0.15 inches, and more preferably between 0.62 inches-0.125 inches. It is understood that the dimensions and configuration of face shield 10 provided above and shown in FIG. 6 are provided as examples, and are not intended to limit the scope of the present disclosure. Furthermore, although the exemplary face shield 10 is formed from a single, unitary panel, it is contemplated that in other embodiments, the various portions of the face shield 10, e.g., the protective portion 12, the suspension strap portion 24, and the attachment tab(s) 26 may be separate components that are joined together.

It is contemplated that the material used to form the face shield 10 may be configured to allow for printing on the material. As such, various logos, names, identifiers, indicia, or other ornamentation may be imprinted on the face shield 10. For instance, the logo of a sports team may be printed on the face shield 10.

The ease of use provided by the face shield 10 may result in deployment of the face shield 10 in a variety of different applications. For instance, the face shield 10 may be handed out to participants of a large gathering to protect against transmission of possible illness or disease. It is also contemplated that the face shield 10 may be used in the food industry by those handling food to protect against transmission of contaminants into the food.

Referring now to FIGS. 12-15, alternative configurations of the slot 18 formed into the protective face shield 10 are shown. The remaining components of the protective face shield 10, e.g., the attachment tabs 26, and the general configuration of the suspension strap portion 24 and protective portion 12 may remain the same, and thus, the following discussion will be focused on the unique configurations of the slots 18 shown in FIGS. 7 and 8.

In FIG. 12, the slot 18 is at least partially defined by a plurality of friction elements 44 (e.g., gripping portions) or teeth that extend upwardly into the slot 18 from the protective portion 12. The configuration of the friction elements 44 results in a slot height SH that varies along the slot 18. In particular, the slot height SH at each friction element 44 is smaller than the slot height SH at the areas of the slot 18 without the friction element 44, e.g., the gaps in the slot 18. The friction elements 44 are sized and configured to increase the friction between the protective face shield 10 and the brim 20 of the cap or headgear 22 when the brim 20 is advanced through the slot 18. When the brim 20 is inserted into the slot 18, the friction elements 44 contact the lower side of the brim 20 and bend in the direction the brim 20 moves through the slot 18, toward the front of the brim 20. The bent friction elements 44 require a stronger force to remove the brim 20 from the slot 18, thereby enhancing the engagement between the protective face shield 10 and the brim 20. Thus, when initially placing the protective face shield 10 on the brim 20, a user can move the protective face shield 10 on the brim 20 to a desired position, and the protective face shield 10 may remain anchored in that position, even if the cap or headgear 22 is repeatedly taken off, or placed on the user. It is also contemplated that the force between the friction elements 44 and the brim 20 will keep the protective face shield 10 in a desired position upon the cap if the cap is taken off, stored by the user, and then placed back on the head of the user for successive reuse.

The friction elements 44 may be spaced from each other such that the slot height SH may be larger in the area extending between adjacent friction elements 44. Those portions of the slot 18 may be venting portions, and may contribute to the ability to vent air from between the user and the protective portion 12.

To remove the brim 20 from the slot 18, the user must apply a force, which causes friction elements 44 to flex and bend from their forwardly bent position, to a rearwardly bending position to allow for removal of the brim 20 from the slot 18.

The exemplary embodiment depicted in FIG. 12 includes five fingers or friction elements 44 equally spaced and integrally formed with the primary panel 12 and extending from the primary panel 12 toward the suspension strap portion 24. It is understood that as few as one friction element 44, and more than five friction elements 44 may be incorporated into the protective face shield 10. Furthermore, although the friction elements 44 are shown as extending from the primary panel 12, it is understood that in an alternative embodiment, the friction elements 44 may extend from the suspension strap portion 24 toward the primary panel 12. In yet another embodiment, there may be a first set of friction elements 44 extending from the primary panel 12, and a second set of friction elements 44 extending from the suspension strap portion 24. The first and second sets of friction elements 44 may be arranged in a laterally staggered, alternating arrangement, such that a given friction element 44 of the first set resides between a pair of adjacent friction elements 44 in the second set.

The configuration of the slot 18 shown in FIG. 12, including the friction elements 22, may be particularly desirable for hard hats or bump caps made from plastics. Although, it is understood that the use of the face shield 10 shown in FIG. 12 is not limited thereto.

In FIG. 13, the slot 18 incorporated into the protective face shield 10 is in the form of a slit, and thus, is narrower than the slots 18 shown in FIGS. 1-7. In this regard, the term slot 18, as used herein, is intended to broadly encompass the configurations shown in FIGS. 1-8, including the slit. The slit 18 is generally linear and is defined by a lower edge 28 of the suspension strap portion 24 and an upper edge 16 of the protective portion 12. In one embodiment, the lower edge 28 may contact the upper edge 16 when the protective face shield 10 is not being used, e.g., is not attached to a brim 20 of a cap or headgear 22. In another embodiment, the lower edge 28 may be slightly spaced from, but reside immediately adjacent to, the upper edge 16.

At the opposite ends of the slit 18 are relief openings 46 that relieve internal stress buildup within the protective face shield 10 adjacent the slit 18 that may occur during advancement of a brim 20 through the slit 18 to mitigate tearing or breakage of the protective face shield 10.

When a brim 20 is advanced through the slit 18, the lower portion of the suspension strap portion 24 and the upper portion of the protective portion 12 will flex forwardly toward the front of the brim 20 to enhance friction between the brim 20 and the protective face shield 10. Thus, the enhanced friction may anchor the protective face shield 10 in a desired position on the brim 20. To remove the brim 20, the lower end of the suspension strap portion 24 and/or the upper end of the protective portion 12 may flex rearwardly to allow for removal of the brim 20 from the slit 18.

FIGS. 14 and 15 show two additional configurations of the slot 18. In FIG. 14, the slot 18 is a saw-tooth configuration, which defines a series of peaks and valleys as the slot 18 extends across the face shield 10. The saw-tooth configuration may be particularly suitable for use with fabric hats, wherein the teeth of the slot 18 may dig into the fabric on the brim 20 to enhance the grip between the face shield 10 and the brim 20.

FIG. 15 shows a slot 18 that is perforated to allow for customization of the effective slot length. The slot 18 may be kiss-cut to include a series of openings that are spaced from each other prior to use. Upon initial installation of the face shield 10 onto the hat 22, a user may tear through some of the perforations to lengthen the effective size of the slot to match the size of the brim 20. As such, the perforations may facilitate use of the face shield 10 with several different hat sizes and configurations.

The bottom contour of the exemplary face shields 10 depicted in Figures include rounded configurations (e.g., FIGS. 1-5) and flat configurations (e.g., FIGS. 6-8 and 12-15). In this regard, the scope of the present disclosure encompasses both configurations, and is not limited to any single configuration.

It is understood that any dimension or value provided herein may be associated with an industry accepted mechanical or optical tolerance.

Referring now to FIGS. 16-18, the face shields 100 disclosed therein are specifically configured and adapted for attachment to headgear 102 in an interior mount configuration. In this regard, the face shield 100 may be attached to an interior surface 104 of the headgear 102, such that when the headgear 102 is worn by the user, at least a portion of the face shield 100 extends between the headgear 102 and the user's head. Thus, if a particular type of headgear 102 does not allow for an exterior mount configuration, such as the brim-mounted configuration discussed above, the face shield 100 may be connected to the headgear 102 at the inside of the headgear 102. Such an interior mount configuration may be particularly useful on headbands 102a (see FIGS. 16 and 18), beanies 102b (see FIG. 17), cowboy hats, bandanas, scarfs, head wraps, head ties, etc.

Although the face shields 100 shown in FIGS. 16-18 accommodate interior mounting on the headgear, it is understood that the face shields 100 may also be used for mounting to headgear via the exterior mounting configurations shown in FIGS. 1-15. As such, the face shields 100 may be universal in nature. The face shields 100 may include an adhesive on only one side of the face shield 100, and thus, the face shield 100 may be inverted or assume an opposing curved shape (convex versus concave, or vice versa) to position the adhesive on the face shield 100 for attaching in an interior mount configuration or an exterior mount configuration. Thus, the same face shield 100 may be used to accommodate various types of headgear and various mounting style for mounting the face shield 100 to the headgear.

The face shield 100 shown in FIGS. 16-18 could be identical or very similar to the face shields shown in FIGS. 1-15, in that the face shield 100 may be formed of a unitary panel generally including an optically clear protective portion 106 and a pair of attachment tabs 108. The above discussion related to the protective panel and attachment tabs also applies to the embodiment shown in FIGS. 16-18. The following discussion will focus on the features of the face shield 100 that allows the face shield 100 to be mounted on the interior of the headgear 102.

Most headgear 102 includes an inner surface 104 which, when the headgear 102 is worn, may contact the user's head and, thus, may be arranged so as to face the user's head. The headband 102a shown in FIG. 18 is an example of such headgear 102 and includes an inner surface 104 and an opposing outer surface 110. The headgear 102 may be expandable to fit over the user's head and then exert a compressive force on the user's head to maintain the headgear 102 in the desired position. However, it is understood that certain types of headgear 102 may not necessarily exert a compressive force on the user's head through internal elasticity or resiliency. For instance, bandanas and scarfs may be secured to the wearer's head by tying the bandana or scarf to the wearer, and thus, may exert a compressive force on the user's head due to the knot tied therein.

The unitary panel includes a first surface 112 and an opposing second surface 114. As with the embodiments shown in FIGS. 1-15, the first and second surfaces 112, 114 may be coated with an anti-reflective coating or with Motheye anti-reflective material, such as MOSMITE™ sold by Mitsubishi Chemical, or other Motheye materials known by those skilled in the art.

The panel may also include an upper edge 116 extending between the pair of attachment tabs 108. The pair of attachment tabs 108 may include an adhesive extending over only one of the first and second surfaces 112, 114 thereof. When the unitary panel is attached to the headgear 102 in an interior mount configuration, the first surface 112 may assume a convex configuration and face away from the user. Conversely, when the unitary panel is attached to the headgear 102 in an exterior mount configuration, the first surface 112 may assume a concave configuration and face toward from the user. Thus, the protective face shield 100 may be used universally with headgear 102 configured for exterior mounting (e.g., headgear with a brim), and with headgear 102 configured for interior mounting (e.g., headband 102a, beanie 102b, cowboy hat, etc.).

Although the foregoing describes adhesive as extending over only one side of the attachment tabs 108, it is contemplated that in other embodiments, the adhesive may extend over both sides of the attachment tabs 108 to allow either side of the attachment tabs 108 to be mounted to the headgear 102. The adhesive may covered by a peel-away layer that can be removed by the user to expose the adhesive prior to use. In another embodiment, the adhesive may include double sided tape that is not adhered to the panel at the time of sale, but is packaged with the panel and is applied to the desired side of the attachment tabs 108 by the user prior to use.

The face shield 100 of FIG. 18 is shown as being attached to the inside surface 104 of the headband 102a. The attachment tabs 108 include adhesive extending over the first surface 112 thereof, and thus, it is the first surface 112 of the attachment tabs 108 that face the headgear 102 when attached thereto. The second surface 114 of the attachment tabs 108 may include indicia or logos emblazoned thereon.

The face shield 100 may be attached to the headband 102a with the first surface 112 of the attachment tabs 108 facing the headband 102a, and the upper edge 116 of the panel overlapping the headband 102a. The attachment tabs 108 may be pressed against the headband 102a to adhere the attachment tabs 108 thereto. Given the circular or oval-shape of the headband 102a, the face shield 100 may assume an arcuate or curved configuration once the attachment tabs 108 have been attached to the headband 102a. In particular, the first surface 112 may assume a convex configuration, while the second surface 114 may assume a concave configuration.

After the attachment tabs 108 have been attached to the headband 102a, the user may place the headband 102a on the user's head, with the face shield 100 extending over the user's eyes, nose, and mouth. The fit of the headgear 102 may compress the attachment tabs 108 between the headgear 102 and the user's head, to aid in securing the face shield 100 in place. Furthermore, the central upper portion of the face shield 100, including upper edge 116, may be captured between the headgear 102 and the user's forehead to further aid in securing the face shield 100 in place. Given that a portion of the face shield 100 may be in direct contact with the user's head when attached to the headgear 102 via an internal mounting configuration, it is contemplated that certain embodiments of the face shield 100 may include, or be useable with padding or cushioning (not shown), which may enhance the user's comfort. When the headband 102a is removed, the face shield 100 may remain attached to the headband 102a and may be reused when the headband 102a is placed back on the user's head. In other words, the face shield 100 may not require reattachment to the headband 102a.

Although the foregoing describes attaching the face shield 100 to the headgear 102 prior to placing the headgear 102 on the user's head, it is contemplated that the sequence may be reversed. In particular, the user may place the headgear 102 on the user's head first, and then, the face shield 100 may be connected to the headgear 102. In particular, once the headgear 102 is on the user's head, the user may pull away a lower front portion of the headgear 100 to create space to slide the face shield 100 between the headgear 100 and the user's head. Once the face shield 100 is in place, the user may press the headgear against the tabs 108 to adhere the face shield 100 to the headgear 102.

It is contemplated that the face shield 100 may not require a slot when the face shield 100 is connected to the headgear 102 via an interior mount configuration. Thus, certain embodiments of the face shield 100 may be formed without a slot. However, other embodiments may include a perforated slot 118, or a permanent slot. For those embodiments of the face shield 100 that include a slot, it is contemplated that the slot may enhance ventilation behind the face shield 100. Thus, when the slot 118 is perforated, the user may break some of the perforations to form one or more vent openings. For instance, a single vent opening may be formed at the center of the perforations or a pair of vent openings may be formed so as to be spaced from each other and on opposite end portions of the perforations. Thus, the perforations may allow a user to selectively configure the vent opening(s) to achieve desired ventilation characteristics.

As noted above, the face shield 100 of FIGS. 16-18 is universal in nature and may be mounted to other headgear 102 in an exterior mount configuration for attaching the face shield 100 to headgear having a brim. Along these lines, when attaching the face shield 100 via a brim, the perforations may be broken to form a slot opening sized to receive the brim of the headgear 102. The face shield 100 may be arranged such that the first surface 112 of the attachment tabs 108 is positioned to face the exterior surface of the headgear 102. The brim of the headgear 102 may be advanced through the slot, which moves the attachment tabs 108 toward the exterior surface of the headgear 102. Once the attachment tabs 108 are near the headgear 102, the attachment tabs 108 may pressed against the headgear 102 to adhere the attachment tabs 108 thereto.

When the attachment tabs 108 are adhered to the outer surface of the headgear 102, the first surface 112 of the face shield 100 may assume a concave configuration, and the second surface 114 may assume a convex configuration, which may be inverted or opposite to the configuration when the face shield 100 is mounted to the inside of the headgear 102.

Although the foregoing describes the face shield 100 as being mounted to headgear 102 having a brim via an exterior mount configuration, it is contemplated that the face shield 100 may also be mounted to such headgear via an interior mount configuration. In this regard, the interior mount configuration may be used with almost all forms of headgear 102.

The particulars shown herein are by way of example only for purposes of illustrative discussion, and are not presented in the cause of providing what is believed to be most useful and readily understood description of the principles and conceptual aspects of the various embodiments of the present disclosure. In this regard, no attempt is made to show any more detail than is necessary for a fundamental understanding of the different features of the various embodiments, the description taken with the drawings making apparent to those skilled in the art how these may be implemented in practice.

	Number	Date	Country
Parent	16874609	May 2020	US
Child	16893699		US
Parent	29733809	May 2020	US
Child	16874609		US

PROTECTIVE FACE SHIELD ATTACHABLE TO HEADWEAR

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