Aspects of various embodiments are directed to mask apparatuses and related approaches.
Masks are useful for a variety of applications, ranging from industrial to medical to recreational applications. For instance, industrial masks are often useful or required for certain applications, and can enhance worker safety. Medical masks can be important for ensuring that medical personnel are protected from exposure. Recreational masks can be useful for filtering dust and other particles.
While useful, many masks are uncomfortable to wear, difficult to fit, and may result in less than desirable protection. For instance, many disposable masks are general in size and shape and are difficult to properly conform to individual faces, such as to accommodate facial hair and other varied facial characteristics, which can result in an improper seal. An improper seal can permit passage of particulates, and can result in fogging of glasses (e.g., via improperly fitting nose pieces). These and other matters have presented challenges to the use and implementation of masks for a variety of applications.
Various example embodiments are directed to masks, and mask apparatuses involving a mask shell, and their implementation.
In accordance with one or more embodiments, an apparatus includes a first material portion that conforms to a user's face, and a second securing portion that is connected to the first material portion and operates with the first material portion to secure a filter to the user's face with the filter covering the user's nose and mouth. For instance, with the filter positioned between the first material portion and the user's face, the second securing portion applies a securing force to the filter via the first material portion in a direction toward the user's face and thereby sealing the filter around the user's nose and mouth.
Various embodiments are further directed to an apparatus as above that further includes the filter. A variety of additional components are implemented in accordance with one or more embodiments, to facilitate alignment of the filter and securing of the filter to the user's face.
The above discussion/summary is not intended to describe each embodiment or every implementation of the present disclosure. The figures and detailed description that follow also exemplify various embodiments.
Various example embodiments may be more completely understood in consideration of the following detailed description in connection with the accompanying drawings, in which:
While various embodiments discussed herein are amenable to modifications and alternative forms, aspects thereof have been shown by way of example in the drawings and will be described in detail. It should be understood, however, that the intention is not to limit the invention to the particular embodiments described. On the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the scope of the disclosure including aspects defined in the claims. In addition, the term “example” as used throughout this application is only by way of illustration, and not limitation.
Aspects of the present disclosure are believed to be applicable to a variety of different types of apparatuses, systems and methods involving masks, and particularly involving replaceable masks with a shell-type approach that facilitates fitment of the replaceable mask. In certain implementations, aspects of the present disclosure have been shown to be beneficial when used in the context of disposable masks that can suffer from fitment problems such as those described above, with improved sealing around a user's face and related comfort. While not necessarily so limited, various aspects may be appreciated through a discussion of examples using such exemplary contexts.
According to various example embodiments, aspects of the present disclosure are directed to an apparatus and approach in which a user may place a mask on the inside of a shell. The shell and mask conform to one another and operate to secure the mask against the user's face, with the shell including one or more fasteners that couple to the user and provide a holding force that is translated through the shell to the mask. In some implementations, the shell covers the mask and allows air to pass through to the mask, and in other implementations the shell operates with the mask to secure the mask to a user's face while allowing a portion (e.g., a central portion) of the mask to remain exposed. This approach can assist in accurately conforming masks to a variety of different types of facial features, bone structure and sizes. This approach also facilitates the use of a replacement mask material (e.g., for disposable masks) while providing robust fitment via the reusable shell. Comfort, safety and convenience aspects can all be addressed in this regard, which can be particularly helpful with disposable masks in which low cost can be desirable.
In various embodiments, a flexible material is used to provide a shell (e.g., a frame), that conforms to a replaceable mask. The shell may include, for example, neoprene, mesh material, a moisture-wicking material, cotton material, and/or polyester material. The frame may include multiple openings via which a replaceable mask may be exposed, which can facilitate breathing through the replaceable mask. In some implementations, the shell operates to pass air though a mesh or perforated type structure, to the mask. The shell may have one, two or more straps that secure the shell and, when integrated therewith, a mask to a user. Such straps may include a head strap connected to the shell and/or other straps (e.g., via a hook-and-loop fastener or button). In further embodiments, a holding strap is included for loosely holding the shell around a user's neck while the shell is in an unsecured position (e.g., removed from the user's face).
In some embodiments, fitment and sealing of a shell and corresponding mask is carried out with a conforming component that draws the shell (and therein the mask) with a force against the user's face. In some embodiments, an elastic material extends around a user's nose and mouth and is operable to adjustably apply pressure in this context, providing and adjustable sealing force to the user's face. For instance, an elastic draw string having a rubber compression ring or a round elastic cord can be used to facilitate tensioning. The cord is secured, for example, using a tension ring or other component. In certain embodiments, elastic type material is integrated with the shell such that the elastic type material can be adjusted to accommodate masks of various sizes. Various embodiments employ a conforming component that applies an even, or nearly even, pressure along a path that encloses the user's nose and mouth, providing a seal between the mask and the user's face.
In some embodiments, a mask shell as characterized herein includes a deformable material that holds shape upon physical deformation, within the mask shell. For instance, a bendable aluminum piece of material can be sewn in the shell in an area that covers a user's nose when the shell is in place. The aluminum piece is bendable to conform the mask shell, and therein the mask, to the user's nose.
One or more embodiments employ elastic or other fitting/tightening components at target locations of the shell. In one embodiment, an elastic material is employed near a chin portion of the shell, to facilitate a tight seal around a user's chin. For instance, additional fabric may be applied at a chin region, relative to other portions of the shell, to facilitate the seal. In some embodiments, a strap is integrated with a chin region, for tightening the material at the chin.
In some implementations, an alignment component aligns masks to a shell as characterized herein. Such an alignment component may, for example, include a ridge or other structure that may be part of, or separate from, material that forms other portions of the shell. The alignment component operates to align removable masks relative to the shell, and facilitates proper fitment thereof (e.g., with an inner surface of the mask shell in contact with an outer surface of the filter).
A variety of accessories may be implemented to suit particular embodiments. In some embodiments, ear plugs, safety glasses, a storage pouch, or a light are attached to provide functionality. Certain embodiments employ additional material such as a bandana, dickey or neck scarf that can be useful in windy or cold weather environments. These components may be implemented with a variety of coupling or fastening approaches, such as hook-and-loop or button-type fasteners. A full-head balaclava may be incorporated for certain applications, which may alleviate the need for straps or fasteners.
A variety of masks may be implemented to suit a variety of applications. For instance, dust masks, chemical masks, medical masks and others can be implemented with a shell as discussed herein. These masks may be washable, disposable or usable over an extended period of time. Such masks may include, for example, those available from 3M Company of St. Paul, Minn.; Moldex of Culver City, Calif.; and Honeywell of Morristown, N.J. In addition, a variety of mask sizes can be employed with a common shell. For instance, the shell may be sized with an opening that accommodates various sizes of masks, in which the shell interfaces with each mask to provide a proper seal to the user's face.
In various embodiments, a shell as characterized herein includes a sealing mechanism that mitigates or prevents moisture from reaching a user's glasses or other eyewear. Such approaches may involve nose pieces and/or other conforming components that conform the shell and/or a mask therein to a user's face. This approach can provide a better seal than, for example, a relatively weak strap system as may be employed with disposable masks. Moreover, the mask may be desirably sealed over facial features, facilitating filtration.
Various embodiments are directed to a mask shell having power connectivity for powering accessories. Positive and negative terminals are located on one or more portions of the mask at which accessory attachment is desired, and coupled to a power source. In some implementations, the terminals are coupled to conductors that extend to a remote power source, such as a battery that is located in another portion of the mask. In certain embodiments, a battery is stored in a pouch integrated in a rear portion of the mask shell. The conductors may be implemented with a switch that can be used to power or remove power from an accessory coupled to the terminals. In various embodiments, a cover or covers are included and couple to the terminals, providing a cover when the terminals are unused. Such an approach may be implemented with snap-type terminals, with button covers that couple to the snap-type terminals.
In accordance with one or more embodiments, an apparatus includes a first shell-type portion that conforms to a user's face with a filter placed between the shell and the user. A securing portion, such as a flexible material and straps, is connected to the first shell-type portion and secures the filter to the user's face by applying a force to the shell-type portion (e.g., by securing straps around the back of the user's neck). The filter is thus pressured by the mask to the user's face, covering the user's nose and mouth. Various embodiments further include the filter, which may be essentially freely-moving relative to the shell.
In various implementations, the first shell-type portion applies the securing force along a path of an inner surface of the filter that is in contact with the user's face, with the securing force being about equal along an entire length of the path. This approach is useful, for example, to mitigate issues relating to mask filter placement and securing (e.g., by deforming the filter along a contour that surrounds the user's nose and mouth), to mitigate leaking. An elastic material may be implemented along the path or other interface between the shell-like material and the filter to enhance the fitment and securing. As the securing portion may include robust straps, these straps can aide coupling of the filter to the user (e.g., relative to disposable masks). In certain embodiments, the first shell-type material portion has a central opening in which the filter inserts, and in which a portion of an outer surface of the filter is uncovered and another portion of the outer surface of the filter is covered by the first material portion. An elastic material around the opening may be implemented to conform the filter to the mask and user's face. The second securing portion secures the first material portion against the outer surface of the mask and secures an inner surface of the mask to the user's face.
Certain embodiments employ a securing portion to seal against a bridge of the user's nose, and therein inhibit moisture exhaled from the user from fogging eyewear worn by the user. This approach may be implemented with an inner surface of the nose portion in contact with the user's nose, while the first material portion secures the filter with an inner surface of the filter being in contact with a portion of the user's nose below a portion of the bridge with which the nose portion is in contact.
Various approaches herein involve the use of a replaceable or disposable filter, which can otherwise move independently of a shell or first material as described above. A second securing portion secures an inner surface of the shell with an outer surface of the filter, with an inner surface of the filter being in contact with and secured to the user's face with a securing force applied.
In various implementations, a securing portion as noted herein applies a settable pressure upon a shell for securing a filter to a user's face under respective conditions in which the user has no facial hair and in which the user has facial hair, thereby forming a seal via different amounts of pressure in each of the respective conditions. In certain implementations, the securing portion includes a chin strap configured and arranged to apply the settable pressure. The securing portion thus may, for example, be integrated with the shell, and/or be implemented in separate components coupled to the shell (e.g., a chin strap being separate from straps that extend around a user's neck). Various elastic cords may be similarly implemented to apply a settable force along a path that surrounds the user's nose and mouth, such as with a compression ring that maintains the settable force.
Turning now to the Figures,
The shell 110 can be implemented in a variety of manners. In some implementations, the shell is solid and covers an outer surface of the mask 130 (in the drawing as shown in
One or more components shown in
By way of example, the shell 210 is shown with an opening at 212 that accommodates mask 230. An inner surface of the shell 210 at region 214 interfaces with an outer surface of the mask 230 near an edge thereof, and applies a force (with the straps 220 and 222 engaged) that secures the mask against a user's face. Accordingly, region 214 of the shell 210 can be shaped to conform to the mask 230, with a portion of an outer surface of the mask being exposed via opening 212 when held in place. A guide 216, such as a foam guide, operates to align the mask 230 with the shell 210. A fastener 218, such as a hook, may be implemented to help secure the mask 230 to the shell 210 while the mask/shell combination is fitted to a user and secured via the straps 220 and 222.
A variety of additional components are shown in
The apparatus 300 shows mask 330 at different locations as it is being installed or removed. The apparatus 300 may also be implemented with a light 390, which can be powered via a battery as may be kept in a storage pouch 392.
Based upon the above discussion and illustrations, those skilled in the art will readily recognize that various modifications and changes may be made to the various embodiments without strictly following the exemplary embodiments and applications illustrated and described herein. For example, various types of materials can be used, in addition to and/or in alternative to those listed. Strap placement may vary to accommodate different anatomies. In addition, the various embodiments described herein may be combined in certain embodiments, and various aspects of individual embodiments may be implemented as separate embodiments. The embodiments shown in the figures and/or as described herein may be implemented together, or certain components characterized with particular embodiments may be used separately. Such modifications do not depart from the true spirit and scope of various aspects of the invention, including aspects set forth in the claims.
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Number | Date | Country | |
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Parent | 14732275 | Jun 2015 | US |
Child | 16593574 | US |