Face masks are used, and in fact sometimes required, when carrying out certain activities in both public and private settings. Face masks are also used by people who suffer from allergic reactions to allergens in the atmosphere, both outdoors and indoors and in public and private settings.
Users will often take their face masks off when, for instance, no one is close by and there is no danger of spreading or contracting diseases; or when the user wishes to eat or drink. However, putting on or taking off a conventional face mask can be difficult, inconvenient and/or unhygienic, particularly when the user is simultaneously enaged in another activity.
In addition, the temporary storage of a conventional face mask after it has been temporarily removed can be difficult, inconvenient and/or unhygienic, particularly when the user is simultaneously enaged in another activity.
It is also important to obtain a sufficiently tight seal between the face mask and the user's face. This can be difficult to achieve, particularly without causing discomfort to the user or marring the user's face.
It is also important, particularly where the user is engaged in vigorous exercise or labor, to prevent the face mask's filter from absorbing too much perspiration and to maximize air-flow through the face mask's filter.
The inventor recognized that putting on or taking off a conventional face mask can be difficult, inconvenient and/or unhygienic, particularly when the user is simultaneously enaged in another activity.
The inventor further recognized that the temporary storage of a conventional face mask after it has been temporarily removed can be difficult, inconvenient and/or unhygienic, particularly when the user is simultaneously enaged in another activity.
The inventor further recognized that it is important to achieve a sufficiently tight seal between the face mask and the user's face and that this can be difficult to achieve without causing discomfort to the user or marring the user's face.
The inventor further recognized that it is important, particularly where the user is engaged in vigorous exercise or labor, to prevent the face mask's filter from absorbing too much perspiration and to maximize air-flow through the face mask's filter, and that a conventional face mask that achieves the foregoing may be relatively heavy and require substantial lateral force against the face in order to keep the face mask in place.
An embodiment describes a mask system, where the mask is held by swing arms attached to a headmounted device. The mask can employ a wide variety of replacable filters, including filters for allergens, dust and/or infectious diseases. Any type of mask or respirator can be mounted on the swing arms.
Different embodiments describe different aspects of the invention and the different advantages thereof.
In the Drawings:
the figures show different aspects of the invention and specifically:
The present application describes a mask mounted on articulating swing arms connected to a headmounted device. The headmounted device has surfaces that hold to the head of the user. The mask has surfaces that cover the nose and mouth of the user, extend around the nose and mouth, and can form a sealing surface around the nose and mouth, thus causing the user to breathe through the filtering material of the mask. That filtering material can be a medical grade filtering material such as an N95 or KN95 face mask material, or can be a different kind of fabric or cloth material.
In different embodiments, the headmounted device can be items including a head harness, hard hat, or helmet, such as a bike helmet. The headmounted device can be, for example, used in home and fitness applications, used in industrial applications or used in sports applications.
Similarly, the hinge point 121 holds its own second swing arm formed of two hinged arm parts, 130 and 131. An identical hinge part, 136, is located between the upper and lower parts of this arm, 130 and 131.
In one embodiment, hinge parts 135 and 136 use molded silicon or closed-cell polyurethane foam rubber (or similar rubber) washers, which are sandwiched between the parts that form hinges 135 and 136, i.e., respectively, parts 123 and 124 and parts 130 and 131. Tightening adjustment knobs are located on the outside of hinge parts 135 and 136. Compression created by the tightening adjustment knobs, will hold the lower part of the arms in place relative to the upper part of the arm. The elasticity of the silicon and rubber washers permits the lower part of the arms to move slightly when upward or downward pressure is applied to the mask (for instance, when the user opens his or her mouth) and to return to the starting position automatically after the pressure subsides.
Hinge points 120 and 121 use rubber washers and the compression created by the tightened adjustment knobs (located on the outside of hinge parts 120 and 121) to hold the upper parts of the arms in place.
The mask can rotate axially on a third set of pivot points 140, 141, where the mask connects to the swing arms.
Each of the swing arms has a pivot point on the headmounted device shown in
In another embodiment (“Embodiment M,” depicted in detail in
As part of Embodiment M, the position of the carriage can be adjusted along a track (434 and 725) by turning an adjustment knob (432 and 722) to allow the user to adjust the location of the upper arms and, consequently, the mask to accommodate the user's particular head and face size and dimensions and to achieve the desired level of compression of the flange against the user's face.
As part of Embodiment M, the upper hinge points do not use a rubber or elastomeric washer. Instead, in order to keep the mask in the down position, Embodiment M uses the magnetic catch system shown in
Embodiment M also employs a different mechanism for holding the upper swing arms stationary when the mask is lifted from the face to an intermediate position shown in
All of the hinges of all the embodiments can be held by friction or another mechanism, and can be selectively tightened and loosened or can incorporate other hinge mechanics.
In
In addition, the embodiment depicted in
In each of the embodiments, the weight of the mask is borne entirely by the swing arms attached to the headmounted device. This obviates the need to use significant lateral pressure to keep the mask firmly in contact with the face. This contrasts with many conventional masks which use, for example, ear loops or bands around the neck that do use lateral pressure. Reducing the lateral pressure results in a more comfortable mask fit and a better wearing experience.
The inventor found that this also diminishes face marring from the mask. It also allows the mask to use the soft silicon flange (900) around the edge of the mask. Such a flange would crumple and lose its seal if subjected to the lateral pressure that is associated with conventional masks. This further improves the comfort and the user experience.
Moreover, the mask can be easily moved over the user's head to the positions shown in
With Embodiment M, the mask can be lowered into position and seated on the face with very little effort, in part, because as the mask nears the face the attractive force between the magnet (431/721) and the metal plate (433/724) automatically pulls the mask into place on the face and compresses the flange. The flange is compressed and creates a seal in accordance with the pressure settings set by the user via the adjustment knobs (432/722).
In another embodiment of the mask,
The mask system has one or more of the following advantages.
The mask system can prevent or, at least significantly decrease, face marring: using a soft, pliable silicon flange and minimal pressure used to affix the mask to the face.
The mask system provides a comfortable fit on the face by using: a soft, pliable silicon flange and minimal pressure used to affix the mask to the face; hinges on the headmounted device, elbow joints and axial rotation of mask that allow for exact positioning by wearer so as to maximize comfort; and (in Embodiment M) an adjustable magnetic catch to hold the mask in a position set by the user.
An embodiment of the mask system (i.e., Embodiment M), which employs an adjustable magnetic catch system, keeps the mask positioned on the face and stationary even when the user is engaged in activities involving rapid and irregular body movements, while at the same time maintaining a consistent soft seal between flange and the user's face.
The mask system can prevent the filter from absorbing sweat even under high-activity use: the lower inside section of the flange is shaped to prevent sweat droplets from falling onto the filter material (
The mask system allows the user to easily remove the mask from the user's face and to easily reposition the mask onto the user's face. Swing arms allow the user to easily move the mask away from the face and position it overhead and to easily reposition the mask onto face.
Embodiments, which incorporate (i) silicone or rubber washers at the interface where the upper and lower arms meet to form the elbow joint and/or (ii) a uni-directional joint spanned by a rubber strut in the lower arm, allow the user to open his or her mouth widely without experiencing resistance from the mask.
The swing arms allow the user to easily move the mask away from the face and position it overhead. The swing arms allow the user to easily reposition the mask onto the face. Also, some embodiments will include a hinged or pivoted opening on the mask which can be easily opened and which will provide easy access to the mouth in order, for instance, to eat or drink, while the mask is still in down position.
The mask system provides a sturdy and robust platform that can be used frequently. Embodiments, can be constructed of plastic and silicone and, therefore, can be used regularly without degradation and rinsed off after use. In the case of the home/fitness application (
Embodiments of the mask system include headwear that a user might in any case wear, such as a bike helmet or a hard hat. The application uses mounts designed specifically for different commonly-used hard hats, and modified swing arms to affix the system to a hard hat.
Bicycle and other sports helmets applications employ mounts designed specifically for different commonly-used helmets and slightly modified swing arms to affix the system to the helmet; in some cases, the system is permanently integrated into helmet, e.g., bicycle helmets.
The mask system can also be used in alternative ways:
Given that the weight of the mask is entirely born by the swing arms, the system can tolerate the addition of other features, e.g., UV disinfectant systems, microphone, earbuds and other audio input, lamp, LED lights for utility and to add decorative flourish, visor, face shield, communication and audio systems, and eye protection; in addition, a more heavy-duty version of the system could be used with a respirator, including a heavy-weight industrial respirator.
The system can be easily adapted for use in conjunction with most helmets.
The system can be used to hold a training mask or high altitude mask.
The home/fitness application (
The home/fitness application (
The system is conducive to being automated given that the weight is borne by the head rather than the face.
In operation, the wearer puts on the home/fitness application (
The previous description of the disclosed exemplary embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these exemplary embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
This application claims priority from Application No. 63/114,299, filed Nov. 16, 2020, the entire contents of which are herewith incorporated by reference.
Number | Date | Country | |
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63114299 | Nov 2020 | US |