EP1725286B1 - Breathing air filtration devices - Google Patents

Breathing air filtration devices Download PDF

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Publication number
EP1725286B1
EP1725286B1 EP20050725914 EP05725914A EP1725286B1 EP 1725286 B1 EP1725286 B1 EP 1725286B1 EP 20050725914 EP20050725914 EP 20050725914 EP 05725914 A EP05725914 A EP 05725914A EP 1725286 B1 EP1725286 B1 EP 1725286B1
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Prior art keywords
tubular body
nasal
rims
associated
rim
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Expired - Fee Related
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EP20050725914
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German (de)
French (fr)
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EP1725286A4 (en )
EP1725286A2 (en )
Inventor
John D. Wilder
Daniel M. Gelfman
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Dolezal David M
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Dolezal David M
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    • AHUMAN NECESSITIES
    • A62LIFE-SAVING; FIRE-FIGHTING
    • A62BDEVICES, APPARATUS OR METHODS FOR LIFE-SAVING
    • A62B23/00Filters for breathing-protection purposes
    • A62B23/06Nose filters

Abstract

A nasal air filtration device includes a pair of either planar or concave-convex filters, a support structure incorporating a pair of generally annular bases or sleeves for supporting the filters, and a bridge that couples the bases or sleeves to maintain them in a desired spaced­apart relation and to determine a desired angular relationship. The support structure is insertable into the nasal cavities to position the filters within corresponding nasal cavities. Flexible rims maintain the support structure and the filters in spaced-apart relation to the surrounding nasal wall. The rims conform to surrounding nasal tissue to form seals. The rims can be selectively inclined to facilitate insertion and resist accidental removal. In certain embodiments the device is combined with a filter that covers the mouth to provide an air filtration system.

Description

    Background of the Invention
  • The present invention relates to devices and systems for filtering ambient air as it is inhaled, and more particularly to filtration devices and systems that employ filtering media and filtering components insertable into the nasal cavities.
  • There is an increasing need for effective filtration of breathing air, to reduce inhaled quantities of particulates and contaminants such as dust and pollen. In cities and other densely populated regions, there is a greater need for filtering pollutants generated by industrial and vehicle emissions. Certain specialized environments entail a greater risk of contamination in ambient air, e.g. construction sites and mines with respect to particulate matter, and hospitals with respect to viral and bacterial agents.
  • These concerns have led to development of a wide variety of masks, typically designed to cover the nose and mouth of the user. These masks frequently are ineffective due to perimeter leakage between the mask and face. Individuals who might benefit from the masks frequently refuse to wear them, due to discomfort or dissatisfaction with the appearance of the mask. Moreover, the masks tend to trap exhaled carbon dioxide, especially when the mask includes a fine (microporous) filter and forms a tight seal against the face. The longer the mask is worn, the greater is the tendency for buildup of carbon dioxide. The user, inhaling increasing amounts of carbon dioxide, is subject to headaches, drowsiness, and nausea, with prolonged exposure causing more severe effects.
  • To address these concerns, a variety of filtering devices have been proposed for insertion into nasal cavities. For example, U.S. Patent No. 216,694 (Chen ) shows a filter with a pair of plug units joined by a belt section, each plug unit receiving a filter. Similarly, U.S. Patent No. 2,433,565 (Korman ) describes a filter in which nostril inserts are joined by a bridge piece. Each insert contains a filter and a porous cone that can be used to deliver medication. In these devices, cylindrical or conical support structures surround the filtering media and press against the inside surface of the nasal wall and septum, frictionally retaining the filter. This support may be supplemented by an adhesive. In either event the supporting structure, which is impermeable to air flow, presses against the nasal wall and tends to mat the turbinates and nose hairs, thus diminishing the capacity of the nostril to trap particles, and warm and moisten incoming air. The filtering devices may satisfactorily perform the particle trapping function, but are not well adapted to warm and moisten the incoming air.
  • In an alternative approach, U.S. Patent No. 5,392,773 (Bertrand ) discloses a filter mounted outside the nasal cavities, secured to the nasal wall with an adhesive. The appearance of the filter, and the need for an adhesive, are disadvantages to this approach.
  • US Patent No. 2,433,565 (Korman ) discloses a pair of hollow frusto-conical nostril inserts, a yielding bridge piece connecting the lower ends of the inserts to removably hold the inserts In the nostrils of the user, and means for supporting interchangeable filters in the inserts.
  • US Patent No. 3,905,335 (Kapp ) discloses nasal air filters including a separate filter member for each nostril in the shape of a tube or cylinder having an outer diameter somewhat smaller than the nostril openings, and thin, readily yieldable flanges at one or both ends of the cylinders which conform to the walls of the nostrils to prevent air from passing between the nostril walls and filter members and assist in retaining the filter members in place while still permitting ready insertion and removal of the filter members from the nostrils.
  • DE20101539 (Zimmerman ) discloses a nasal filter. The filter comprises an anatomically shaped, air permeable filter sleeve that is filled with filter material. The opening end of the filter is provided with a reinforcement that aids in inserting and extracting the filter.
  • Further, regardless of whether the foregoing nasal filters are mounted outside the nose or inserted into the nasal cavities, they frequently are inconvenient to use and uncomfortable to wear, and fail to provide a reliable sealing engagement with nasal or facial tissue to ensure that incoming air passes through the filtering media. Finally, the nasal filters afford no protection against intentional or inadvertent inhaling through the mouth.
  • Therefore, it is an object of the present invention to provide a breathing air filtration device with filtering media and their supporting structure insertable into the nasal cavities, adapted to form an effective seal against surrounding nasal tissue and maintain the filtering media securely against inadvertent removal, without unduly diminishing the user's comfort.
  • Another object is to provide a filtration device adapted to maintain filtration media and their support structure inside a nasal cavity in spaced-apart relation to the nasal wall, to provide effective filtration while reducing interference with the particle trapping, air warming and air moistening functions of the nasal interior wall.
  • A further object is to provide a filtration system that effectively filters air entering the nose and mouth, and at the same time considerably reduces the volume available for trapping exhaled carbon dioxide as compared to masks that cover the nose and mouth. Yet another object is to provide nasal filters and breathing air filtration systems that are convenient to use, yet afford better sealing against nasal and facial tissue for more effective filtration.
  • Summary of the invention:
  • According to an aspect of the present invention there is provided a nasal air filter support device. The device includes a first support member comprising a first tubular body having an anterior end and a posterior end and defining a first longitudinal passageway therethrough, and further comprising a first rim disposed circumferentially about the first tubular body, extending radially outwardly therefrom, and inclined in the direction toward the posterior end of the first tubular body. The device includes a second support member comprising a second tubular body having an anterior end and a posterior end and defining a second longitudinal passageway therethrough. The second support member further comprises a second rim disposed circumferentially about the second tubular body, extending radially outwardly therefrom, and inclined in the direction toward the posterior end of the second tubular body. A connecting member is integrally coupled to the first tubular body and second tubular body. The first and second rims are recessed distally from the posterior ends of the respective sleeves. Each of the tubular bodies is insertable by the anterior end thereof entirely into an associated one of the nasal cavities with the associated rim being adapted to form a surface engagement with the nasal wall and septum defining the associated nasal cavity. The associated rim further is elastically deformable and tends to conform to the surrounding nasal wall and septum over an area of the surface engagement, to substantially form a seal along the area and to support the associated tubular body within the associated nasal cavity.
  • A further aspect of the present invention is a nasal air treatment appliance. The appliance includes a first support member comprising a first tubular body having an anterior end and a posterior end, and defining a first passageway to accommodate a longitudinal flow of air therethrough. The first support member further has a pair of rims comprising a first rim surrounding the first tubular body, extending radially outwardly from the first tubular body and inclined in the direction toward the posterior end of the first tubular body, and a second rim surrounding the first tubular body in longitudinally spaced apart relation to the first rim, extending radially away from the first tubular body and inclined in the direction toward the posterior end of the first tubular body. The appliance includes a second support member comprising a second tubular body having an anterior end and a posterior end and defining a second passageway to accommodate a longitudinal flow of air therethrough. The second support member further has a pair of rims comprising a third rim surrounding the second tubular body, extending radially away from the second tubular body and inclined in the direction toward the posterior end of the second tubular body, and a fourth rim surrounding the second tubular body in longitudinally spaced apart relation to the third rim, extending radially away from the second tubular body and inclined in the direction toward the posterior end of the second tubular body. A connecting member is integrally coupled to the first and second tubular bodies. At least one rim of each of the pair of rims is recessed distally from the posterior end of the respective tubular body. Each pair of the rims is adapted to form a surface engagement with the nasal wall and septum defining an associated one of the nasal cavities, responsive to an insertion of their associated tubular body longitudinally into the associated nasal cavity by the anterior end thereof. The nms thereby support and maintain the associated tubular body within the associated nasal cavity In spaced apart relation to the nasal wall and septum.
  • Thus in accordance with the present invention, a filtration device insertable into the nasal cavities is easy to use, has a minimal impact on the appearance of the user, and provides more effective and longer-lasting filtration. Improved performance arises in part from the retention of air warming and moisturizing capability when the filtering media are maintained in the spaced-apart relation to the nasal walls. Improved performance also can arise from an enlarged surface area available for filtration, due to a concave-convex shape or truncated conical of the filtering media, and further if desired by forming the media with pleats or corrugations.
  • In the Drawings
  • For a further appreciation of the above and other features and advantages, reference is made to the following detailed description and to the drawings, in which:
    • Figure 1 is a forward elevational view showing a nasal air filtration device
    • Figure 2 is a sectional view taken along the line 2-2 in Figure 1;
    • Figure 3 is a schematic view of the device in use;
    • Figure 4 is a perspective view of an alternative filtration device;
    • Figure 5 is a forward elevation of the device shown in Figure 4;
    • Figure 6 is a top plan view showing the device of Figure 4;
    • Figures 7 and 8 are schematic views illustrating operation of the device of Figure 4;
    • Figure 9 is an exploded-parts view of another alternative filtration device;
    • Figure 10 is a forward elevational view showing the device of Figure 9;
    • Figure 11 is a top plan view of the device of Figure 9;
    • Figure 12 is an exploded-parts view of another alternative filtration device;
    • Figure 13 is a forward elevational view of the device of Figure 12;
    • Figure 14 is a top plan view of the device of Figure 12;
    • Figure 15 is a perspective view of an air filtration device adapted to cover the mouth;
    • Figure 16 is a side elevational view illustrating use of an alternative filtration system including the device of Figure 15 in combination with a nasal filter,
    • Figure 17 is a schematic view of another alternative filtration device;
    • Figure 18 is a forward elevational view of an embodiment of a nasal air filtration device according to the invention ;
    • Figure 19 is a top plan view of the device shown in Figure 18;
    • Figure 20 is a sectional view taken along the line 20-20 in Figure 18;
    • Figure-21 is a forward elevational view of a further alternative embodiment nasal air filtration device according to the invention.,
    • Figure 22 is a top plan view of a device shown in Figure 21;
    • Figure 23 is a side elevation of the device in Figure 21;
    • Figure 24 is a sectional view taken along the line 24-24 in Figure 21;
    • Figure 25 is a forward elevation of a nose/mouth air filtration system;
    • Figure 26 is a side elevation of system shown in Figure 25; and
    • Figure 27 is a perspective view of an alternative air filtration system.
  • It is to be noted that Figures 1-17 and 25-27 are for illustrative purposes since they do not represent embodiments according to the claimed invention.
  • Detailed Description
  • Turning now to the drawings, there is shown in Figure 1 a nasal air filtering device 16 insertable into the nasal cavities to filter ambient air as it is inhaled by the user. Device 16 includes a unitary support structure or panel 18, preferably formed of a hypo-allergenic material such as polyvinyl chloride (PVC) or polyurethane. The panel is structurally self- supporting and further is flexible and compliant so that It readily conforms to the anterior surface of the nose, In particular the anterior nares and septum, when device 16 is in use.
  • Panel 18 includes a base 20, an opposite base 22, and a connecting member or bridge 24 coupled to the bases to maintain the bases spaced apart from one another a desired distance. Each of the bases is annular - more precisely, generally annular in sense that its profile is somewhat elliptical rather than circular. Bases 20 and 22 have respective Closed or endless perimeter regions 20a and 22a, and shoulders 20b and 22b that surround openings through the base, to admit air when the device is in use. As seen in Figures 2 and 3, openings 26 and 28 are formed through bases 20 and 22, respectively. Bridge 24 is relatively narrow to provide bending flexibility along the bridge. Base perimeter regions 20a/22b are thin and flexible, while shoulders 20b/22b are more rigid.
  • A generally conical filtering medium or filter 30 is mounted on base 20, and a similar filter 32 is mounted on base 22. Each filter is mounted to its associated base along a generally annular proximal edge or rim and extends away from the base to a distal apex. In use, filters 30 and 32 extend distally into the nasal cavities. Each of the filters can be attached to its associated one of shoulders 20b and 22b with a suitable adhesive.
  • Filters 30 and 32 can be formed from a wide variety of materials, and further can be formed with a wide (several orders of magnitude) range of porosities, depending on the nature of the contaminants to be filtered. Materials and porosities can be selected in accordance with National Institute for Occupational Safety and Health (NIOSH) classifications, e.g. dusts, mists and fumes (DMF), or high-efficiency particulate air (HEPA) filters. Preferred materials include the electrostatic filtration media available under the name "Technostat" from Hollingsworth & Vose Air Filtration, Ltd. of Kentmere, Cumbria, United Kingdom. Suitable materials include natural fabrics such as cotton, and polymeric materials such as nylon, polyethylene and polypropylene. Hypo-allergenic materials such as PVC and polyurethane also may be employed. Each of the filters has a substantially uniform thickness, and in general has a truncated conical shape, although differing from a precise truncated cone in two respects. With reference to filter 30, the distal end near the apex forms a rounded dome, rather than a transverse plane. Second, profiles of filter 30 taken in transverse planes are elliptical rather than circular, to provide a filter shape that better conforms to the nasal cavity. Filter 32 is similarly shaped.
  • Figure 2 shows the elliptical profiles of filters 30 and 32, and further illustrates a preferred angular orientation of the filters and bases relative to each other. Bridge 24 maintains the preferred orientation as well as maintaining the bases and filters in a desired spaced-apart relation to each other. In this orientation, the long or lengthwise axes of the respective ellipses are not parallel, but maintained at an angle, e.g., about 30 degrees. As a result, filters 30 and 32 are angularly oriented in a manner that better conforms to the relative angular orientation of the nostrils and nasal cavities, thus to provide a closer, more comfortable fit of the filters within the nasal cavities. The bridge is sufficiently flexible to allow limited adjustment of the angle to suit the person wearing the device.
  • As seen in Figure 3, perimeter regions 20a and 22a are positionable inside of the entrances 34 to nasal cavities 38 and 40, with bridge 24 spanning the septum 36. This forms a close fit in which the perimeter regions tend to conform to the nasal cavity entrances, forming a contiguous surface engagement that frictionally maintains each filter within its associated nasal cavity, and preferably provides a seal. Shoulders 20b and 22b extend into the nasal cavities 38 and 40, spaced apart from the nasal wall interior. This places each of filters 30 and 32 in a working position in which the filter extends distally into its associated nasal cavity: filter 30 into nasal cavity 38, and filter 32 into nasal cavity 40. The width (radial dimension) and thickness (axial dimension) of perimeter regions 20a and 22a can vary with the material forming panel 18. In general, these dimensions are selected to provide each perimeter region with sufficient bending flexibility to conform to the nasal wall near the entrance to the nasal cavity and form the desired seal, and also with sufficient structural rigidity and strength to frictionally support the associated base and filter in their associated nasal cavity. To facilitate this dual function, the perimeter regions can be tapered to provide a thickness that decreases in the radially outward direction.
  • As a result of this positioning, and the close fit between bases 20 and 22 and the nasal cavities, air entering nasal cavity 38 enters through opening 26 and passes through filter 30. Likewise, air enters nasal cavity 40 through opening 28, and proceeds through filter 32.
  • Bridge 24 sets the desired spacing between bases 20 and 22, and thus facilitates proper positioning of filters 30 and 32 in their respective nasal cavities. The bridge also prevents over insertion of the filters by virtue of its contact with the septum, and remains easily accessible to the user desiring to remove filtering device 16 after use. Further, as best seen in Figure 2, bridge 24 determines the desired relative angular orientation of bases 20 and 22, and thus of filters 30 and 32.
  • Filtering device 16 affords several advantages in comparison to the aforementioned conventional nasal filters. One of these arises from the concave-convex shape of filters 30 and 32. Each of the filters has a concave inside surface in the proximal (out of the nasal cavity) direction, and a convex exterior surface in the distal (into the nasal cavity) direction. As compared to a conventional arrangement including disk-shaped filters with surface areas comparable to openings 26 and 28, or higher volume filters that nonetheless are exposed only along openings such as 26 and 28, filters 30 and 32 have a much larger surface area available for filtration.
  • The magnitude of this difference can be understood when considering a filter shaped as a disk, compared to a filter having the same radius but shaped as a hemispherical shell. The surface area of the disk is πr2. The surface area of the hemispherical shell is 2π2. The concavity in this instance doubles the surface area available for filtration. In the case of filters 30 and 32, this advantage is magnified, because the distance from the rim of each filter to its apex is considerably larger than the radius of the rim.
  • Another advantageous feature is the fact that filters 30 and 32 are structurally self-supporting and stand alone. They are not surrounded by an air-impermeable cylinder or barrel. Thus, inhaled air readily passes through the entire filter, not just at or near the apex.
  • In short, the concave-convex shape, in the absence of air-impermeable structure contacting and surrounding the filter, leads to a considerable increase in the surface area available for filtration. Even a slight degree of concavity can increase the available surface area by fifty percent. More preferably, the available surface area is at least doubled as compared to a planar filter at the nasal cavity entrance.
  • Another salient advantage resides in the spaced-apart relation of each filter to the nasal wall defining the nasal cavity. More particularly, filter 30, for example, is spaced apart from septum 36 and the nasal wall 42 that cooperates with the septum to surround the filter. Filter 32 likewise is spaced apart from septum 36 and a nasal wall 44. This spacing promotes the flow of inhaled air along the space between each filter and its surrounding nasal tissue. Perhaps more importantly, this spacing has a favorable impact on the capacity of the nasal wall to warm and moisten inhaled air. Nasal hairs and turbinates are exposed, rather than matted down by the filter, or by an air-impermeable cylinder surrounding a filter. Thus, filtering device 16, as compared to prior filters, more effectively preserves the air warming and air moisturizing capability of the nasal cavity.
  • Figure 4 illustrates an alternative filtering device 46 including a pair of ellipsoidal and corrugated filters 48 and 50 contained within a unitary support structure 52. The support structure is comparable to panel 18 in that it includes bases 54 and 56, and a bridge 58 coupled to the bases to maintain the desired spacing and angular relationship. Bridge 58 is u-shaped to allow a further distal insertion of the filters into their respective nasal cavity. Accordingly, filters 48 and 50 are shorter than filters 30 and 32, in terms of the axial distance between the rim and the apex. Further, however, an open frame 60 extends distally from base 54, and an open frame 62 extends distally from base 56. Frame 60 consists of arched, intersecting frame members 64 and 66, and frame 62 similarly consists of an intersecting pair of arched frame members 68 and 70. Each filter is contained within its associated base and frame. Frames 60 and 62 are relatively rigid, while the perimeter regions of bases 54 and 56 are more flexible to form a better seal against or near the anterior nares. Filters 48 and 50 need not be structurally self-supporting, due to the surrounding open frames.
  • As perhaps best seen In Figure 6, bridge 58 maintains bases 54 and 56, and thus filters 48 and 50 as well, in a preferred angular offset relative to each other. Multiple corrugations 72 are formed in each filter, beginning at the rim and extending upwardly toward the apex. The corrugations strengthen each filter in terms of increasing its rigidity. Further, the corrugated filter, as compared to a filter of the same size without the corrugations, has an increased surface area available for filtration.
  • As seen from Figures 7 and 8, filter 48 is frictionally retained in its associated nasal cavity, by contact of frame members 64 and 66 and a shoulder 54b with the surrounding nasal wall. In this arrangement, which is different from that shown in Figure 3, a perimeter region 54a is positioned against the anterior nares, and thus remains outside of the nasal cavity. The frame members cooperate to maintain their associated filter in spaced-apart relation to the surrounding nasal wall, forming a plurality of air flow passages between the filter and wall as indicated by a passage 74 formed by frame members 64 and 66. Filter 50 and base 56 are similarly supported. The passages facilitate a flow of inhaled air through each of filters 48 and 50 toward the nasal wall, then along the nasal wall and eventually past the filter. As before, this spacing facilitates the warming and moisturizing of inhaled air.
  • If desired, bases 54 and 56 can be formed with respective perimeter regions 54a and 54b sized For insertion into the nasal cavity entrances, to support their associated filters and bases in the manner illustrated in Figure 3. In this approach, open frames 60 and 62 do not contribute to the frictional retention of the bases and filters, but instead tend to remain spaced apart from the interior nasal walls and septum. This arrangement requires a more precise sizing of the proximal regions of the bases. The primary advantage is that bases with bendable, compliant perimeter regions can form a satisfactory seal and frictional hold over a wider range of nasal cavity sizes and shapes.
  • Figure 9 is an exploded-parts view of a further alternative described nasal filtration device 76. Device 76 includes a filter support structure 78 having spaced apart bases 80 and 82 with relatively flat and generally annular perimeter portions 84 and 86 respectively, and respective raised and generally annular shoulders 88 and 90. The bases are coupled by an arcuate bridge 92.
  • An open-frame retainer 94, shown above base 80, can be removably press-fit onto the base to capture an ellipsoidal, corrugated filtering medium 96. An open-frame retainer 98 can be similarly coupled to base 82, to contain an ellipsoidal, corrugated filtering medium 100. Each, of the retainers includes a generally annular bottom portion 102 sized and shaped for a press-fit coupling with the shoulder of its associated base. Each retainer further incorporates several frame members 104, shorter than frame members 64-70 and extending to an open top 106 of the retainer, rather than to an apex or junction of the frame members as with device 46. Frame members 104, like the frame members in device 46, contact the nasal wall to provide frictional mounting of the device, and maintain their associated filters in spaced-apart relation to the nasal wall to promote air flow between each retainer and the nasal wall that surrounds it.
  • Figures 12 through 14 show another alternative described filtration device 108. The support structure is provided in the form of a flat, thin, flexible panel 110 that incorporates base portions 112 and 114 joined by a bridge portion 116. The panel further incorporates a tab 118 extending away from base portion 112, and a tab 120 extending in the opposite direction away from base portion 114. An adhesive pad is applied to each tab, as indicated at 122 and 124. The device further includes a pair of filter containers 126 and 128, each domain-shaped with a relatively wide generally annular bottom rim portion 130, and a large opening 132 at the top. Ellipsoidal filters 134 and 136 are shown beneath the containers.
  • Filters 134 and 136 are press-fit into containers 126 and 128, which in tum are inserted through respective openings 138 and 140 in panel 110 until the bottom rim portion 130 of each container is contiguous with one of base portions 112 and 114. The result is shown in Figure 13. Broken lines in this figure illustrate how the flexible panel can be folded to direct tabs 118 and 120 upwardly. When the filters and containers are inserted into the nasal cavities, this positions the tabs along the lateral portions of the nasal walls. The adhesive pads are used to removably retain the tabs against the lateral nasal walls, to maintain panel 110 against the anterior nares and maintain filters 134 and 136 in the working position. In an alternative of this described, self supporting filters are used in lieu of the filter/container pairs.
  • Figure 15 shows a breathing air filtration device 142 designed to cover the mouth. The device includes a concave-convex base 144 with a concave surface designed to facilitate a close, preferably staling surface engagement with the face of the user, in surrounding relation to the user's mouth. A filtering medium 146 is mounted to the base, secured to the base by an adhesive along its perimeter if desired. An elastic band 148 is secured at its ends to opposite sides of base 144. Filtering medium 146 is corrugated, and concave-convex with the outside or proximal side being convex.
  • As seen in Figure 16, filtering device 142, in combination with one of the nasal filtering devices previously described, are worn in combination to provide an air filtration system 150 for use in lieu of a conventional mask filtration device covering the mouth and nose. As compared to a single mask, system 150 is less prone to leakage, due in part to the shorter and more consistent contour of the face In contact with base 144. Also, because band 148 is aligned with the mouth rather than the mouth and nose, it tends to assume a lower position around the neck and is less prone to downward slippage. System 150 encloses a volume of air near the mouth, but this volume is considerably less than the volume near the mouth and nose enclosed by a conventional mask. Thus, the volume available for entrapment of exhaled carbon dioxide is reduced. System 150 is adapted to virtually eliminate carbon dioxide accumulation altogether, by a users inhaling exclusively through the nose. In addition to a better fit, system 150 is less prone to perimeter leakage.
  • Figure 17 illustrates another alternative described filter, in the form of a two-stage nasal air filtering device 151. The device includes a flexible panel 152, including a base 154, an opposite base 156, and a bridge 158 connecting the bases in the same manner as the bridges in previous examples. Two generally elliptical openings are formed through the panel, including an opening 160 through base 154, and an opening 162 through base 156. hi a manner similar to previous examples, base 154 supports an ellipsoidal filtering medium 164, and base 156 supports an ellipsoidal filtering medium 166. In addition, each of bases 154 and 156 supports an ellipsoidal preliminary screening filter: a screening filtering medium 168 in opening 160, and a screening filtering medium 170 in opening 162.
  • Device 151 provides two filtration stages, as inhaled air passes through one of filtering media 168 and 170, then through one of filtering media 164 and 166. In one preferred version, media 168 and 170 are relatively coarse activated charcoal filters, and filtering media 164 and 166 are finer (micropore) filters formed of polymeric fibers. Filters 168 and 170 screen out larger particles, and remove odors from the incoming air. This prevents the larger diameter particles from impacting and collecting over the ellipsoidal filters, lengthening their useful life.
  • Figures 18-20 show a nasal air filtration device 172 including a filtering media support structure 174, preferably a unitary member formed of a flexible, biocompatible polymer having a relatively low durometer. One suitable material is thermoplastic elastomer available under the name "Santoprene" from Advanced Elastomer Systems, LP of Akron, Ohio. Another suitable material is available under the name "Dyna-Flex G2701-1000."The support device includes a pair of tubular bodies or sleeves 176 and 178. Each sleeve is arranged about a longitudinal axis, and as best seen in Figure 19, has generally elliptical profiles in transverse planes. Each sleeve has an anterior end 180 and a posterior end 182. The sleeves are insertable Into the nasal cavities by their anterior ends, so that in use the anterior ends are the distal ends in the sense of being disposed further into the nasal cavities.
  • A rim 184 runs circumferentially about sleeve 176 near posterior end 182. The rim is inclined, in that as it extends radially outward it also extends in the posterior direction, i.e. downward as viewed in Figures 18 and 20. Rim 184 has a substantially uniform thickness taken generally in the longitudinal direction. As an alternative, rim 184 can be tapered, with a thickness that gradually decreases in the radially outward direction.
  • Sleeve 178 is surrounded by a rim 188 substantially identical to rim 184 in its size, shape, incline, and location with respect to the posterior end of its associated sleeve.
  • Sleeves 176 and 178 are coupled to one another through a bridge 196. As in previous examples, the bridge determines the angular relationship of the sleeves and encounters the septum to limit sleeve insertion into the nasal cavities.
  • An annular interior ridge 188 projects radially inwardly from sleeve 176, and a similar ridge projects radially inwardly from sleeve 178. The ridges support filtering media 192 and 194, respectively. Media 182 and 194 are planar in the sense of being elliptical rather than ellipsoidal as in previously described examples. If desired, ellipsoidal or truncated- conical filtering media can be used to enhance the area available for filtration.
  • With respect to the rims and the ridges, it is to be appreciated that the terms "circumferential" and "annular" are used in the general sense to describe their continuous or endless nature, given that their transverse profiles are more elliptical than circular.
  • In use, each of sleeves 176 and 178 is inserted into one of the nasal cavities. Each of the rims is disposed inside its associated nasal cavity, and presses against surrounding tissue of the nasal wall and septum to support and maintain its associated sleeve within the cavity. Each rim further elastically conforms to the surrounding tissue along a generally annular region of its contact with the tissue, to form a seal which ensures that air entering the nasal cavity passes through the associated filtering medium. In this regard, rims 184 and 186 function like perimeter regions 20a and 22a of bases 20 and 22. Rims 184 and 186 also tend to maintain their respective sleeves spaced apart from the surrounding nasal tissue, in much the same manner as bases 20 and 22 maintain their respective filters.
  • In addition, the incline and location of each rim affords several advantages. First, from Figure 20 it is apparent that when sleeve 176 is inserted by anterior end 180 into the nasal cavity, any frictional drag due to contact of the rim with surrounding nasal tissue tends to bend rim 184 toward posterior end 182 of the sleeve. On the other hand, during removal of the sleeve from the nasal cavity, the same frictional drag tends to bend the rim toward anterior end 180.
  • Due to its incline and continuity (circumferential character), rim 184 is relatively easily bent radially inward and toward posterior end 182, but is much less inclined to bend radially outward and toward anterior end 180 due to the need for elastic expansion near the outer edge of the rim to accommodate the bend. Accordingly, rim 184 is configured to provide slight resistance to sleeve insertion and to provide substantial resistance to sleeve removal. As a result, sleeves 176 and 178 are easily and conveniently inserted into the nasal cavities for use, yet are effectively retained against accidental or inadvertent removal by rims 184 and 186.
  • Another difference from perimeter regions 20a and 22a is that rims 184 and 186 are recessed distally from the posterior ends of their respective sleeves. Consequently the rims are positioned further into the nasal cavities to provide better support during use, while the sleeve posterior ends remain more accessible to the user. This facilites a procedure in which a user can test the fit by placing fingers over the posterior ends of the sleeves and exhaling.
  • Figures 21-24 illustrate an alternative embodiment nasal air filtration appliance or device 200 including a pair of support members 202 and 204 containing filtering media 203 and 205, and joined by a bridge 206. Support member 202 includes a tube or sleeve 208 similar to sleeve 176, a rim 210 disposed circumferentially about and extending radially outward from the sleeve, and a rim 212 similar to and longitudinally spaced apart from rim 210. Rims 210 and 212 are inclined toward a posterior end 214
  • Support member 204 includes a sleeve 216 and longitudinally spaced apart rims 218 and 220, structured and configured like rims 210 and 212.
  • In general, each of rims 210, 212, 218 and 220 performs the same functions as rims 184 and 186 in the previous embodiment. The serial arrangement of a pair of rims on each sleeve, in lieu of a single rim, provides an improved seal and better retention of each sleeve within its associated nasal cavity.
  • Bridge 206 is similar to bridge 196 of the previous embodiment and performs the same functions. In addition, a series of ribs 222 are formed along bridge 206 to provide an improved gripping surface which is particularly useful for users wearing gloves or with soiled hands.
  • Figures 25 and 26 show a system 224 for filtering air entering the nose and mouth. System 224 includes a frame 226 shaped to facilitate a close, preferably sealing surface engagement with the face of the user, in surrounding relation to the mouth. A filtering medium 228, pleated for enhanced filtration surface area, is removably secured to frame 226 to enable disposal of the filters and reuse of the frame. An elastic band 230, shown only in part, is used to secure frame 226 against the face.
  • A connecting member 232 is integrally coupled to frame 226, and includes narrower portions 234 and 236 coupled to sleeves 238 and 240, respectively. The connecting member, along with supporting the sleeves relative to frame 226, determines their orientation and position with respect to each other.
  • A pair of longitudinally spaced apart rims 242 and 244 are disposed circumferentially about sleeve 238. Likewise, a pair of rims 246 and 248 surround sleeve 240. These rims form seals against surrounding nasal tissue when the sleeves are disposed within the nasal cavities. The rims also tend to support the sleeves within the nasal cavities, although support of the sleeves is provided primarily by frame 226 through connecting member 232.
  • A concave-convex filtering medium 250 is supported within sleeve 238. A similar filtering medium 252 is supported with sleeve 240. Like filtering medium 228, filtering media 250 and 252 are pleated to increase the surface area available for filtration. Also like filtering medium 228, concave-convex filtering media 250 and 252 can be disposable.
  • System 224 filters air inhaled through the nose or mouth, and thus functions in the manner of a conventional mask with a single perimeter that surrounds the nose and mouth. A primary advantage of system 224 is its close mounting proximity to the face. As compared to the conventional mask, system 224 provides a considerably reduced volume near the face for entrapment of exhaled carbon dioxide, hi addition, system 224 forms a closer fit against the face and provides a more effective seal, due to the sealing action of the rims, the considerably reduced perimeter of frame 226 as compared to the perimeter of the conventional mask, and the portion of the face contacted by frame 226, which has a more consistent contour. If desired, a rim or pair of rims can be formed along the perimeter of frame 226, for surface engagement with the face to form a seal in much the same manner as the rims surrounding the sleeves.
  • Figure 27 shows an alternative described filtering system 254 similar to system 224 in providing a frame 256 adapted to surround the mouth, a pleated filtering medium 258 supported by the frame, sleeves 260 and 262 respectively supporting filtering media 264 and 268 insertable into the nasal cavities, and a connecting member 268 supporting the sleeves with respect to the frame and each other. An elastic band 270 maintains frame 256 against the face. Broken lines indicate the position of system 254 relative to the face and nose when in use.
  • In a departure from system 224, an upper portion 272 of frame 256 is modified to provide a fluid conduit running from one end 274 of the frame to its center. At end 274, the conduit is open to the exterior of the frame for coupling to a line 276, the other end of which is coupled to an oxygen supply (not shown). Connecting member 268 is modified to provide fluid conduits 278 and 280, in fluid communication with the frame conduit and open at their ends near sleeves 260 and 262, respectively. Thus, in demanding environments, system 254 can be used to provide a continuous supply of oxygen into the nasal passages, and is particularly effective when the user inhales through the nose and exhales through the mouth.
  • Several further features may be used to enhance any of the previously described devices and systems. The filtering media may be impregnated with constituents for therapeutic applications including aroma therapies, or to provide a cover aroma. Likewise, the polymer forming the sleeves and bridge may be scent-impregnated. The filtering media can be structurally reinforced by applying a fine polymeric mesh.
  • Thus in accordance with the present invention, a breathing air filtration device is insertable into the nasal cavities for improved, longer lasting filtration of inhaled air. The area available for filtration is enhanced by the concave-convex design of the filtering media, by forming pleats in the media, or by corrugating the media. Filtering is improved by a selective positioning of the filters and filter-supporting structures in spaced-apart relation to the surrounding nasal walls, resulting in more effective warming and moisturizing of the filtered air. Selectively inclined rims or rim pairs provide for convenient insertion while guarding against accidental or inadvertent removal of filtering media from the nasal cavities. The nasal filtering device also is effective in combination with an auxiliary filter covering the mouth, to provide a system suitable for use in lieu of a conventional mask, with improved resistance to perimeter leakage and accumulation of exhaled carbon dioxide.

Claims (27)

  1. A nasal air filter support device (172), including:
    a first support member comprising a first tubular body (176) having an anterior end (180) and a posterior end (182) and defining a first longitudinal passageway therethrough, and further comprising a first rim (184) disposed circumferentially about the first tubular body, extending radially outwardly therefrom, and inclined in the direction toward the posterior end of the first tubular body;
    a second support member comprising a second tubular body (178) having an anterior end (180) and a posterior end (182) and defining a second longitudinal passage therethrough, and further comprising a second rim (186) disposed circumferentially about the second tubular body, extending radially outwardly therefrom, and inclined in the direction toward the posterior end of the second tubular body; and
    a connecting member (196) integrally coupled to the first tubular body and second tubular body;
    wherein each of the tubular bodies is insertable by the anterior end thereof
    into an associated one of the nasal cavities with the associated rim being adapted to form a surface engagement with the nasal wall and septum defining the associated nasal cavity, with the associated rim further being elastically deformable and tending to conform to the surrounding nasal wall and septum over an area of said surface engagement, to substantially form a seal along said area and to support the associated tubular body within the associated nasal cavity, characterised in that the first and second rims are recessed distally from the posterior ends of the respective tubular bodies.
  2. The device of claim 1 wherein:
    each of the first and second rims is adapted to maintain its associated tubular body in spaced apart relation to the surrounding nasal wall and septum when inserted into the nasal cavity.
  3. The device of claim 1 wherein:
    the connecting member spans the septum when the support members are inserted into their respective nasal cavities, and is positioned to encounter the septum to limit said insertion.
  4. The device of claim 2, wherein:
    each of the first and second rims is disposed between the anterior end and posterior end of its associated tubular wall, and located nearer to the posterior end.
  5. The device of claim 1 further including:
    first and second filtering media disposed within the first and second passages, respectively.
  6. The device of claim 5 further including:
    a first ridge disposed along the first tubular body and extended radially inwardly therefrom, adapted to support the first filtering medium; and
    a second ridge disposed along the second tubular body and extended radially inwardly therefrom, adapted to support the second filtering medium.
  7. The device of claim 5 wherein:
    the first and second filtering media are substantially planar.
  8. The device of claim 5 wherein:
    the first and second filtering media are concave-convex, each being convex in the anterior direction and concave in the posterior direction.
  9. The device of claim 5 wherein:
    the first and second filtering media have substantially elliptical profiles in transverse planes.
  10. The device of claim 5 wherein:
    the connecting member tends to maintain the first and second tubular bodies in a selected angular orientation relative to one another.
  11. The device of claim 1 wherein:
    the tubular bodies, the rims and the connecting member are formed as a unitary structure composed of a polymer.
  12. The device of claim 1 further including:
    a third rim disposed circumferentially about and extended radially outward from the first tubular body in longitudinally spaced apart relation to the first rim; and
    a fourth rim disposed circumferentially about and extended radially outward from the second tubular body in longitudinally spaced apart relation to the second rim.
  13. The device of claim 12 wherein:
    each of the third and fourth rims is inclined in the direction toward the posterior end of its associated tubular body.
  14. The device of claim 1 further including:
    a plurality of ribs formed along the connecting member.
  15. A nasal air treatment appliance (200) including:
    a first support member (202) comprising a first tubular body (208) having an anterior end and a posterior end, and defining a first passageway to accommodate a longitudinal flow of air therethrough;
    a pair of rims comprising a first rim (210) surrounding the first tubular body, extending radially outwardly from the first tubular body , and a second rim (212) surrounding the first tubular body in longitudinally spaced apart relation to the first rim, extending radially away from the first tubular body ;
    a second support member (204) comprising a second tubular body (216) having an anterior end and a posterior end and defining a second passageway to accommodate a longitudinal flow of air therethrough;
    a pair of rims comprising a third rim (218) surrounding the second tubular body, extending radially away from the second tubular body , and a fourth rim (220) surrounding the second tubular body in longitudinally spaced apart relation to the third rim, extending radially away from the second tubular body
    a connecting member (206) integrally coupled to the first and second tubular bodies;
    wherein at least one rim of each of the pair of rims is recessed distally from the posterior end of the respective tubular body; and
    wherein each pair of said rims is adapted to form a surface engagement with the nasal wall and septum defining an associated one of the nasal cavities, responsive to an insertion of their associated tubular body longitudinally into the associated nasal cavity by the anterior end thereof, and thereby support and maintain the associated tubular body within the associated nasal cavity in spaced apart relation to said nasal wall and septum, characterized in that the first and second rims are inclined in the direction toward the posterior end of the first tubular body, and in that the third and fourth rims are inclined in the direction toward the posterior end of the second tubular body.
  16. The appliance of claim 15 wherein:
    the rims of each said pair are elastically deformable, and tend to conform to the surrounding nasal wall and septum when forming said surface engagement to substantially form seals along respective areas of said surface engagement.
  17. The appliance of claim 15 wherein:
    the rims of each said pair, when in said surface engagement, are configured to apply a first force resisting longitudinal movement of their associated tubular body further into the associated nasal cavity, and a second force resisting longitudinal movement of the associated tubular body out of the associated nasal cavity, and the second force exceeds the first force.
  18. The appliance of claim 15 wherein:
    each of the rims is tapered to have a thickness that decreases in the radially outward direction.
  19. The appliance of claim 15 wherein:
    each of the rims runs circumferentially about its associated one of the tubular bodies.
  20. The appliance of claim 15 further including:
    first and second filtering media disposed within the first and second passageways, respectively.
  21. The appliance of claim 20 further including:
    a first ridge disposed along the first tubular body and extended radially inwardly therefrom, and a second ridge disposed along the second tubular body and extended radially inwardly therefrom, the first and second ridges being adapted to support the first and second filtering media, respectively.
  22. The appliance of claim 20 wherein:
    the first and second filtering media are substantially planar.
  23. The appliance of claim 20 wherein:
    the first and second filtering media are concave-convex, each being convex in the anterior direction and concave in the posterior direction.
  24. The appliance of claim 20 wherein:
    the first and second filtering media have substantially elliptical profiles in transverse planes.
  25. The appliance of claim 15 wherein:
    the connecting member tends to maintain the first and second base members in a selected angular orientation relative to one another.
  26. The appliance of claim 15 wherein:
    the connecting member spans the septum when the support members are inserted into their respective nasal cavities, and is positioned to encounter the septum to limit said insertion.
  27. The appliance of claim 15 wherein:
    the tubular bodies, the rims and the connecting member are formed as a unitary member composed of a polymer.
EP20050725914 2004-03-19 2005-03-18 Breathing air filtration devices Expired - Fee Related EP1725286B1 (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
US10804995 US7156098B2 (en) 2004-03-19 2004-03-19 Breathing air filtration system
US11077784 US7918224B2 (en) 2004-03-19 2005-03-11 Breathing air filtration system
PCT/US2005/009151 WO2005092004A3 (en) 2004-03-19 2005-03-18 Breathing air filtration devices

Publications (3)

Publication Number Publication Date
EP1725286A2 true EP1725286A2 (en) 2006-11-29
EP1725286A4 true EP1725286A4 (en) 2008-01-02
EP1725286B1 true EP1725286B1 (en) 2011-11-23

Family

ID=35056728

Family Applications (1)

Application Number Title Priority Date Filing Date
EP20050725914 Expired - Fee Related EP1725286B1 (en) 2004-03-19 2005-03-18 Breathing air filtration devices

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EP (1) EP1725286B1 (en)
JP (1) JP2007531570A (en)
CA (1) CA2581433C (en)
WO (1) WO2005092004A3 (en)

Families Citing this family (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7918225B2 (en) 2004-03-19 2011-04-05 Airwave, Inc. Breathing air filtration devices
US8833369B2 (en) * 2004-03-19 2014-09-16 Airware, Inc. Breathing air filtration devices
US7156098B2 (en) 2004-03-19 2007-01-02 Dolezal Creative Innovations, Llc Breathing air filtration system
JP4916329B2 (en) * 2007-02-08 2012-04-11 花王株式会社 Nostril-worn mask
JP2009297053A (en) * 2008-06-10 2009-12-24 Bio International Kk Nasal plug
JP2009297506A (en) * 2009-05-21 2009-12-24 Bio International Kk Nasal plug
ES1072424U (en) * 2010-05-07 2010-07-09 Cesar Albero Mira Device for opening the nasal passages.
ES2391737B1 (en) * 2010-11-23 2013-05-24 David Orts Paya Device to relieve symptoms of nasal allergies
US9132300B2 (en) * 2011-05-04 2015-09-15 Joseph K. Moore Nasal filter structure
ES2376440B2 (en) * 2011-11-28 2012-11-12 Cesar Albero Mira Device to relieve symptoms of nasal allergies.
KR200475695Y1 (en) * 2013-11-01 2014-12-23 박효남 Stop Cock Type Multi-Way Connector Device For Intravenous Injection With Reduced Injection Resistance
KR101624931B1 (en) * 2015-12-31 2016-05-27 김창배 Method for manufacturing filter for syringe, and filter for syringe

Family Cites Families (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1508890A (en) * 1923-11-26 1924-09-16 Lasseaux Marcel Andre Nasal inhaler
US2433565A (en) * 1946-06-21 1947-12-30 Korman Alexander Nose filter
US2535155A (en) * 1947-11-28 1950-12-26 Victor H Pandorf Nasal filter
US3463149A (en) * 1968-07-05 1969-08-26 Theodor Albu Nose air filter
JPS4994491A (en) * 1973-01-12 1974-09-07
US3905335A (en) * 1974-03-21 1975-09-16 Gerald J Kapp Nasal air filter
US4220150A (en) * 1978-09-13 1980-09-02 King John R Nasal dust filter
JPS55148761A (en) * 1979-05-08 1980-11-19 Toyoda Autom Loom Works Ltd Surface treatment of metallic material
JPS6129740B2 (en) * 1983-08-03 1986-07-09 Asaoka Kk
JPS60171450A (en) * 1984-02-17 1985-09-04 Matsushita Electric Ind Co Ltd Safe detection apparatus for combustion machinery
JPS61228883A (en) * 1985-04-01 1986-10-13 Masaaki Takenaka Allergic nasitis preventing device
JPH01160572A (en) * 1987-12-17 1989-06-23 Chubu Giken Pack Kk Pollen protection tool for nose
JPH0618253B2 (en) * 1988-11-07 1994-03-09 三洋電機株式会社 The semiconductor integrated circuit
US5890491A (en) * 1997-09-03 1999-04-06 Amtec Products, Inc. Nose filter
DE20101539U1 (en) * 2001-01-30 2001-07-19 Zimerman Augustin nose filters
JP3894828B2 (en) * 2001-09-28 2007-03-22 ナップエンタープライズ株式会社 Ear pads and earphones equipped with the pad
GB0203524D0 (en) * 2002-02-14 2002-04-03 Soper Adrian J Filtration device

Also Published As

Publication number Publication date Type
EP1725286A4 (en) 2008-01-02 application
JP2007531570A (en) 2007-11-08 application
EP1725286A2 (en) 2006-11-29 application
CA2581433C (en) 2014-07-15 grant
CA2581433A1 (en) 2005-10-06 application
WO2005092004A3 (en) 2006-05-04 application
WO2005092004A2 (en) 2005-10-06 application

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