Forehead support for facial mask

Information

  • Patent Grant
  • 6463931
  • Patent Number
    6,463,931
  • Date Filed
    Friday, June 30, 2000
    24 years ago
  • Date Issued
    Tuesday, October 15, 2002
    22 years ago
Abstract
An adjustable forehead support for a nasal mask. The present invention discloses an adjustable forehead support for a nasal or full-face mask wherein the forehead support may be adjusted for the different shapes and sizes of a facial profile. The forehead support utilizes a dual-arm system which adjusts the position of the forehead support vis-à-vis the mask and/or air flow tube. The angle of the mask to the face may be adjusted with the present invention.
Description




FIELD OF THE INVENTION




The present invention generally relates to an improved comfort device to be used with a nasal mask. In particular, the device is useful in combination with masks which are used for the treatment of respiratory conditions and assisted respiration. The invention assists in fitting the mask to the face as well.




BACKGROUND OF THE INVENTION




Nasal masks are commonly used in the treatment of respiratory conditions and sleep disorders by delivering a flow of breathable gas to a patient to either assist the patient in respiration or to provide a therapeutic form of gas to the patient to prevent sleep disorders such as obstructive sleep apnea. These nasal masks typically receive a gas through a supply line which delivers gas into a chamber formed by walls of the mask. The mask is generally a semi-rigid mask which has a face portion which encompasses at least the wearer's nostrils. Additionally, the mask may be a full face mask. The mask is normally secured to the wearer's head by straps. The straps are adjusted to pull the mask against the face with sufficient force to achieve a gas tight seal between the mask and the wearer's face. Gas is thus delivered to the mask through the aperture to the wearer's nasal passages and/or mouth.




One of the problems that arises with the use of the mask is that in order for the straps to be tight, the mask is compressed against the wearer's face and may push unduly hard on the wearer's nose. Additionally, the mask may move around vis-à-vis the wearer's face. Thus, there has been provided a forehead support, which provides a support mechanism between the mask and the forehead. This forehead support prevents both the mask from pushing too strongly against the wearer's nose and/or facial region as well as minimize movement of the mask with the addition of a contact point between the mask and the wearer's head as well as minimize uncomfortable pressure points of the mask. Additionally, the forehead support may prevent the air flow tube from contacting the wearer's forehead or face.




Prior to the present invention, the forehead supports were generally a single cushion with a single contact point which may be adjustable by rotation of a screw, with the single cushion pushing on the forehead at a single point. This is oftentimes uncomfortable for the patient, and the adjustability of the distance of the pad for different forehead protuberances oftentimes was difficult if not impossible to be performed. Additionally, a single contact point does not provide necessary lateral support to the mask. Finally, a single contact point may apply too much pressure at the single point.




Examples of prior art nasal masks are shown in U.S. Pat. Nos. 4,782,832 and 5,243,971.




There is a need for an improved forehead support for nasal and facial masks which adjusts to different angles on the face.




There is a need for a forehead support for nasal masks which may be adjusted to different forehead shapes.




There is a need for a multi-point forehead support for nasal masks.




These and other advantages will be described in more detail below.




SUMMARY OF THE INVENTION




The present invention is directed to an improved forehead support for nasal and facial masks. In particular, the present invention utilizes a dual cantilevered forehead support which preferably utilizes dual contacts which are arranged at an obtuse angle with respect to one another and which may be easily adjusted for different forehead protuberances. Preferably, the forehead support has two arms extending from the mask or gas supply line, with the two arms engagable into a bridge system wherein the arms may be adjusted to different positions on the bridge allowing optimal positioning of the mask on the face. This achieves even pressure of the mask on the face. The mask also provides an excellent fit which limits movement of the mask during sleep. The forehead support is adjustable such that the support is closer or further away from the front plane of the facial mask. The bridge supports the pad or pads which contact the wearer's forehead. The support also may allow the mask to be secured such that more pressure is applied to one area of the mask, to seal a leak for example.




The present invention allows the mask user to adjust the angle of the mask to the face. This is possible due to the two point contact of the forehead support to the forehead working in combination with the point of contact of the mask to the face. The system thus has three points of contact, wherein the forehead pads provide two contact points and the mask to the face is a third point of contact. Adjusting the angle of the forehead pads or the distance of the legs to the forehead pads adjusts the angle of the mask vis-à-vis the face of the user. This unique system provides a mask system which can be adjusted to fit the different face angles or profiles required by users.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

is a perspective view of the forehead support of the present invention attached to a mask, headgear and a gas supply tube.





FIG. 2

is a perspective view of the forehead support of the present invention removed from the mask and gas line.





FIG. 3

is an exploded view of the forehead support of the present invention.





FIG. 4

is a side view of the present invention secured to a mask.





FIG. 5

is a top view of the forehead support of the present invention in a first position.





FIG. 6

is a top view of the forehead support of the present invention in a second position.





FIG. 7

is a top view of the forehead support of the present invention in a third position.





FIG. 8

is a top view of the forehead support of the present invention in a fourth position.





FIG. 9

is a front view of the bridge of the present invention.





FIG. 10

is a single pad of the present invention.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT





FIG. 1

shows a general perspective view of the forehead support


10


of the present invention. The forehead rest or support


10


is attached to an extending airflow tube


12


from the mask


14


. The mask


14


and forehead support


10


are shown with headgear


16


which secures the mask


14


to the head of a patient. The headgear


16


may take a variety of forms, with one example being shown as


16


. As can be seen in

FIG. 1

, preferably the headgear


16


loops through the forehead support


10


at


18


and


20


. This pulls the forehead support


10


against the forehead, thus creating a snugly fitted mask


14


and also provides a stabilizing member for the mask


14


.




The mask


14


, shown in

FIG. 1

is merely one example of a mask which can be used with a forehead support, but any respiratory mask could be used. A full face mask which may cover the entire face or just both the nose and mouth could be used, for example. Additionally, the airflow tube


12


could be extending from the bottom of the mask


14


, thus the tube


12


supporting the forehead support


10


would terminate above forehead support


10


. If the airflow tube


12


extended in a downward or other direction from the mask


14


, then preferably a post would extend up from the mask


14


(this post position is referenced as


22


). This post


22


would terminate slightly above where forehead support


10


is shown secured to tube


12


. Thus the forehead support


10


would be secured to the post in this alternative embodiment.





FIG. 2

discloses the preferred construction of the forehead support


10


of the present invention. The forehead support


10


has pads


24


and


26


. These pads


24


and


26


are the actual contact points of the forehead support


10


to the forehead. Pads


24


and


26


are preferably made of a deformable elastomeric material which retains its original shape upon release of pressure and provides the wearer with increased comfort and stability. As can be seen in the preferred embodiment, the forehead pads


24


and


26


have an annular interior construction with two retaining walls


28


and


30


. The retaining walls


28


and


30


provide structural integrity to the forehead contact support pads yet allow the pads to be deformed. The deformation preferably occurs by deflection of the pad walls. The pads also may be solid pads. The support pads


24


and


26


are mounted to the bridge


32


. The bridge


32


provides basically three purposes to the forehead support


10


. First off, it acts as a securing means for forehead pads or cushions


24


and


26


. Second of all, it has annular spaces


18


and


20


which receive the optional headgear


16


shown in FIG.


1


. Finally, it receives arms


34


and


36


, which may be adjusted, as described below. The bridge


32


and arms


34


and


36


operate in a cantilever fashion and are preferably made of a polymeric material, which may be easily molded, preferably injection molded. Arms


34


and


36


are secured to bridge


32


by an adjustable locking mechanism which is better illustrated in the figures below. Additionally, arms


34


and


36


join together to create an annular space


38


which may receive airflow tube


12


which is preferably connected to a flow generator to generate breathable air or some type of therapeutic gas. Arms


34


and


36


preferably create an operational hinge. The tube


12


may be an axis of this hinge. The hinge could also be a flexible membrane and not a rotational or axial hinge. Alternatively, the tube may extend through annular space


38


and terminate as described above (in the “post” embodiment) if the air flow tube is connected to another port on the mask.





FIG. 3

is an exploded view of FIG.


2


and shows the forehead support


10


in greater detail.

FIG. 3

discloses how bridge


32


is configured such that forehead pads


24


and


26


may be secured thereto. In particular, tongues


40


,


42


,


44


and


46


all engage forehead pads


24


and


26


by entering the interior space of the pads. This is shown in

FIG. 2

wherein tongues


42


and


46


are shown securing pads


24


and


26


respectively by entering the annular space of the pads


24


and


26


. Additionally, there may be engaging surfaces such as


48


,


50


,


52


and


54


, as shown in

FIG. 3

, which engage an inner side wall of forehead pads


24


and


26


. The means by which the forehead pads are secured to the bridge


32


can be done in many manners, and one skilled in the art can come up with numerous methods of achieving this securement. Two sided tape may be used, protruding pegs and apertures on the forehead pad may be used or many other methods. What is desirable is that the forehead pad(s) may be replaced after extended use or, in a clinical setting, with each new patient. The method of securement of the pad(s) to the support is not a limiting feature of the present invention.




The type of forehead pad may also vary, it may include a solid foam sponge, a stuffed pad, a dual durometer foam which may be a single pad or multiple pads attached together, or many other known pads which would impart comfort when placed directly on the forehead. Finally, a single pad which extends all the way across bridge


32


may be used or more than two pads may be used.




Bridge engaging pins


56


,


58


,


60


and


62


are shown in FIG.


3


. As will be more apparent in the figures below, these engaging pins provide for the adjustability of the forehead support


10


of the present invention. There are pin receiving means located on the bridge


32


which receive pins


56


,


58


,


60


and


62


. The pins


56


,


58


,


60


and


62


are merely one example of how the arms


34


and


36


may be secured to bridge


32


. There are other designs which would work just as well as the pin designs. Such designs are known to those skilled in the art. Additionally, there is a space or recess at arms


34


and


36


shown clearly on arm


34


as


64


. The purpose of this space


64


is so that the user may compress arm


34


and thus press


56


and


58


together by pressing on surfaces


66


and


68


. The purpose of the compression is such that the distance between prongs


56


and


58


is decreased and thereby they may be inserted and locked into bridge


32


. The structure and method of this insertion will be described in further detail below.





FIG. 4

is a side view of the mask


14


and forehead support


10


of the present invention. The mask is shown as


14


with a dotted line showing the nose of a wearer


70


and the dotted line showing the forehead


72


of the wearer. Pad


26


is shown compressed by the forehead of the individual wearing the mask.





FIG. 5

is a top view of the forehead support


10


of the present invention taken along lines


5


of FIG.


4


. Also, the mask


14


is not shown in FIG.


5


. This figure illustrates the forehead support


10


in a position wherein the forehead support is the closest to the tube


12


(shown as merely a space in FIGS.


5


-


8


). The bridge


32


is shown essentially in contact with tube


12


. The pins


56


,


58


,


60


and


62


are shown in their furthest position from the center of the bridge


32


. This position may be utilized by someone with a large, protruding or bulbous forehead, or a high nasal bridge, or someone who prefers the airflow tube to be snug against their forehead.





FIG. 6

shows the same forehead support in the next position, wherein the bridge


32


is moved away from tube


12


such that there is a gap


74


between bridge


32


and tube


12


. As is visible from the figure, the forehead support


10


is now moved further away from tube


12


, and is positioned differently than in FIG.


5


. This may be configured to fit someone with a less protruding forehead, or someone who wants the flexible tube further from their head than is possible in FIG.


5


.





FIGS. 7 and 8

show the third and fourth position for the forehead support of the present invention. Although the present embodiment shows a four-positioned forehead support, the number of slots, shown as


76


,


78


,


80


,


82


,


84




86


,


88


and


90


may be varied. There may be more or fewer slots, or there may just be one single slot wherein pins


56


and


58


slides transversely across bridge


32


and has locking recesses located along the slide. Additionally, the adjustments do not have to be uniform. In other words, the right side may be adjusted to slot


88


where the left side may be adjusted to slot


84


for some particular patient. There may also be more slots or adjustments on one side of the bridge as compared to the other side of the bridge. Finally, the arms may be coupled such that movement of just one arm moves the other arm in a likewise manner.





FIG. 9

shows an isolated view of bridge


32


. The slots


76


,


78


,


82


,


84


,


86


,


88


and


90


are visible from this view. The slots are configured such that prongs


56


,


58


,


60


and


62


may be inserted therein. There is a mirror set of slots on the upper portion of bridge


12


which are not visible in FIG.


9


. Again, there can be additional slots, fewer slots, or different methods of locking the arms


34


and


36


to various positions along the bridge


32


. What is important to the present invention is that the bridge


32


with the accompanying pads


24


and


26


may be positioned to a variety of distances between the tube


12


and the pads


24


and


26


. Additionally, the pad may be one continuous pad, three pads, five pads, four pads, etc. There also may a double bridge used, wherein there could be a total of two or more pads with two bridges.





FIG. 10

is a perspective view of the preferred forehead pad of the present invention. As indicated above, there could be many shapes or variations of a forehead pad and type of forehead pad or the shape of forehead pad is not limited in the present invention.




It is to be understood that while the invention has been described above in conjunction with preferred specific embodiments, the description and examples are intended to illustrate and not limit the scope of the invention, which is defined by the scope of the appended claims.



Claims
  • 1. A forehead support for use with a respiratory mask having a support post, the forehead support comprising a cushion frame having an adjustment assembly adapted to be adjustably couplable to the support post, the cushion frame having a bridge including at least one cushion receiving surface that is adapted to move transversely toward and away from a user's forehead and yet remain substantially parallel to user's forehead when in use regardless of the relative positioning between the adjustment assembly and the support post, wherein the adjustment assembly includes two arm portions between the support post and the bridge, the arm portions being adjustably coupled to the support post so as to move along a curved path during adjustment of the bridge relative to the support path.
  • 2. The forehead support as claimed in claim 1, wherein each of the arms pivots about an axis that is transverse to the respective arm.
  • 3. The forehead support as claimed in claim 2, wherein each said axis is parallel to the support post.
  • 4. The forehead support as claimed in claim 1 wherein the support post is adapted to provide a path by which breathable gas is supplied to the mask.
  • 5. The forehead support as claimed in claim 1, further comprising at least one cushion.
  • 6. The forehead support as claimed in claim 5, wherein the at least one cushion includes two cushions that are spaced apart with a space between the spaced apart cushions that does not contact the patient's forehead.
  • 7. The forehead support as claimed in claim 1, wherein each of the two arm portions is independently movable relative to one another.
  • 8. The forehead support as claimed in claim 1, wherein the two arm portions wrap around the support post to meet with one another.
  • 9. A forehead support for use with a respiratory mask having a support post, the forehead support comprising a cushion frame including an adjustment assembly adapted to be adjustably couplable to the support post so as to be movable toward and away from a patient's forehead and yet remain substantially parallel to the patient's forehead when in use regardless of relative positioning between the adjustment assembly and the support post, the cushion frame having at least one cushion receiving surface, and at least one cushion, wherein the at least one cushion includes an inner wall and an outer wall defining a space therebetween, wherein the at least one cushion is connected solely to said cushion frame.
  • 10. The forehead support as claimed in claim 9, further comprising at least one retaining wall extending between the inner and outer walls.
  • 11. The forehead support as claimed in claim 9, wherein the at least one cushion is open-ended.
  • 12. A forehead support for use with a respiratory mask having a support post, the forehead support comprising a cushion frame including an adjustment assembly adapted to be adjustably couplable to the support post so as to be movable toward and away from a patient's forehead and yet remain substantially parallel to the patient's forehead when in use regardless of relative positioning between the adjustment assembly and the support post, the cushion frame having at least one cushion receiving surface, and at least one cushion, wherein the at least one cushion includes an outer wall having a first side that is adapted to contact a user and a second side, opposite to the first side, that defines a space between the outer wall and the cushion receiving surface, wherein the at least one cushion is connected solely to said cushion frame.
  • 13. The forehead support as claimed in claimed 12, further comprising at least one retaining wall substantially perpendicular to the outer wall and adjacent the space.
  • 14. A forehead support for use with a respiratory mask having a support post, the forehead support comprising a cushion frame including an adjustment assembly adapted to be adjustably couplable to the support post so as to be movable toward and away from a patient's forehead and yet remain substantially parallel to the patient's forehead when in use regardless of relative positioning between the adjustment assembly and the support post, the cushion frame having at least one cushion receiving surface, and at least one cushion, wherein the at least one cushion includes an engagement surface structured to receive a retainer element positioned on the forehead support, wherein the at least one cushion is connected solely to said cushion frame.
  • 15. A respiratory mask assembly comprising:a respiratory mask having a support post; a forehead support including an adjustment assembly adjustably coupled to the support post; and a cushion fame having a bridge including at least one cushion receiving surface that is adapted to move transversely toward and away from a user's forehead and yet remain substantially parallel to the user's forehead when in use regardless of relative positioning between the adjustment assembly and the support post, wherein the adjustment assembly includes two arm portions between the support post and the bridge, the arm portions being adjustably coupled to the support post so as to move along a curved path during adjustment of the bridge relative to the support post.
  • 16. The mask assembly as claimed in claim 15, wherein each of the arms pivots about an axis that is transverse to the respective arm.
  • 17. The mask assembly as claimed in claim 16, wherein each said axis is parallel to the support post.
  • 18. The mask assembly as claimed in claim 15, wherein the support post is adapted to provide a path by which breathable gas is supplied to the masks.
  • 19. The mask assembly as claimed in claim 15, further comprising at least one cushion.
  • 20. The mask assembly as claimed in claim 19, wherein the at least one cushion includes two cushions that are spaced apart with a space between the spaced apart cushions that does not contact the patient's forehead.
  • 21. The mask assembly as claimed in claim 15, wherein each of the two arm portions is independently movable relative to one another.
  • 22. The mask assembly as claimed in 15, wherein the two arm portions wrap around the support post to meet with one another.
  • 23. A respiratory mask assembly comprising:a respiratory mask having a support post; and a forehead support including a cushion frame with an adjustment assembly adjustably coupled to the support post so as to be movable toward and away from a patient's forehead and yet remain substantially parallel to the patient's forehead when in use regardless of relative positioning between the adjustment assembly and the support post, the cushion frame having at least one cushion receiving surface and at least one cushion, wherein the at least one cushion includes an inner wall and an outer wall defining a space therebetween, wherein the at least one cushion is connected solely to said cushion frame.
  • 24. A mask assembly as claimed in claim 23, further comprising at least one retaining wall extending between the inner and outer walls.
  • 25. The mask assembly as claimed in claim 23, wherein the at least one cushion is open-ended.
  • 26. The mask assembly as claimed in claim 25, wherein the adjustment assembly is positioned substantially between the cushion frame and the support post.
  • 27. A respiratory mask assembly comprising:a respiratory mask having a support post; and a forehead support including a cushion frame with an adjustment assembly adjustably coupled to the support post so as to be movable toward and away from a patient's forehead and yet remain substantially parallel to the patient's forehead when in use regardless of relative positioning between the adjustment assembly and the support post, the cushion frame having at least one cushion receiving surface and at least one cushion, wherein the at least one cushion includes an outer wall having a first side that is adapted to contact a user and a second side, opposite to the first side, that defines a space between the outer wall and the cushion receiving surface, wherein the at least one cushion is connected solely to said cushion frame.
  • 28. The mask assembly as claimed in claim 27, further comprising at least one retaining wall substantially perpendicular to the outer wall and adjacent the space.
  • 29. The mask assembly as claimed in claim 28, wherein the adjustment assembly is positioned substantially between the cushion frame and the support post.
  • 30. A respiratory mask assembly comprising:a respiratory mask having a support post; and a forehead support including a cushion frame with an adjustment assembly adjustably coupled to the support post so as to be movable toward and away from a patient's forehead and yet remain substantially parallel to the patient's forehead when in use regardless of relative positioning between the adjustment assembly and the support post, the cushion frame having at least one cushion receiving surface and at least one cushion, wherein the at least one cushion includes an engagement surface structured to receive a retainer element positioned on the forehead support, wherein the at least one cushion is connected solely to said cushion frame.
  • 31. The mask assembly as claimed in claim 30, wherein the adjustment assembly is positioned substantially between cushion frame and the support post.
  • 32. A respiratory mask assembly for a patient comprising:a mask shell coupled to a facial cushion support structure including a cheek region, a lip region and a nasal bridge region, the mask shell including a support post extending upwardly above the nasal bridge region of the facial cushion support structure; and a forehead support secured to the support post, said forehead support including an adjustment mechanism secured to the support post and a cushion frame mounted to the adjustment mechanism, wherein the cushion frame is adapted to locate at least one forehead cushion and wherein the adjustment mechanism includes a coupling member that is movable along a curved path relative to the support post such that, in use, the cushion frame can move toward and away from the patient's forehead and yet remain substantially parallel to the patient's forehead when in use regardless of relative positioning between the adjustment assembly and the support post.
  • 33. The assembly as claimed in claim 32, wherein the cushion frame is selectively lockable at two or more predetermined positions.
  • 34. The assembly as claimed in claim 32, wherein the cushion frame includes a connector structured to releasably receive a head strap.
  • 35. The assembly as claimed in claim 34, wherein the mask includes a connector structured to receive a head strap.
  • 36. The assembly as claimed in claim 32, wherein the at least one forehead cushion spans enough of a user's forehead to promote stability.
  • 37. support as claimed in claim 36, wherein said at least one forehead cushion includes at least two horizontally spaced forehead cushions.
  • 38. A forehead support constructed and arranged to be connected to and support a respiratory mask, comprising:a bridge constructed and arranged to engage a forehead of a user; and an adjusting mechanism connected to the bridge and constructed and arranged for connecting to a connecting portion connected to the mask, the adjusting mechanism constructed and arranged to adjust the bridge relative to the mask, to adjust a position of the bridge relative to the connecting portion, and to selectively lock the bridge relative to the mask in a plurality of discretely spaced positions within a range of movement between the bridge and the connecting portion, the bridge remaining substantially parallel to the patient's forehead when in use regardless of relative positioning between the adjusting mechanism and the connecting portion.
  • 39. A respiratory mask assembly for a patient comprising:a mask shell coupled to a facial cushion support structure including a cheek region, a lip region and a nasal bridge region, the mask shell including a support post extending upwardly above the nasal bridge region of the facial cushion support structure; a forehead support secured to the support post, said forehead support including an adjustment mechanism secured to the support post and a cushion frame mounted to the adjustment mechanism, wherein the cushion frame includes a bridge, and wherein the adjustment mechanism includes at least one portion that is movable relative to the support post such that, in use, the cushion frame can move toward and away from the patient's forehead and yet remain in an operative position relative to the patient's forehead when in use regardless of relative positioning between the adjustment assembly and the support post, and a pair of forehead cushions provided on the bridge, the forehead cushions being spaced from one another along a length of the bridge with a space being provided between a center portion of the bridge and the patient's forehead, wherein the adjustment mechanism is constructed and arranged to selectively lock the bridge relative to the mask in at least three predetermined positions, each of the forehead cushions includes an inner wall abutting a surface of the bridge and an outer wall adapted to be in contact with the patient's forehead, a space is provided between the inner and outer walls, and at least one interior wall is provided in the space between the inner and outer walls, each said interior wall provides resistance to application of pressure applied to the outer wall during use, each of the forehead cushions is an open-ended, annular member made of a deformable elastomeric material that retains its shape upon release of the pressure, the bridge includes a retainer element provided on each side of the bridge, and each of the forehead cushions includes a surface engaged with a respective one of said retainers, and the bridge is substantially wider than the support post.
  • 40. The respiratory mask assembly as claimed in clam 39, wherein:the bridge defines an imaginary axis extending between the pair of forehead cushions, said imaginary axis remains substantially perpendicular to the support post during adjustment of the adjustment mechanism, and the adjustment mechanism is positioned substantially between the bridge and the support post.
Parent Case Info

This is a continuation of application Ser. No. 09/008,708, filed Jan. 16, 1998.

US Referenced Citations (160)
Number Name Date Kind
781516 Guthrie Jan 1905 A
812706 Warbasse Feb 1906 A
1081745 Johnston et al. Dec 1913 A
1192186 Greene Jul 1916 A
1653572 Jackson Dec 1927 A
1926027 Biggs Sep 1933 A
2123353 Catt Jul 1938 A
2245969 Francisco et al. Jun 1941 A
2248477 Lombard Jul 1941 A
2254854 O'Connell Sep 1941 A
2317608 Heidbrink Sep 1943 A
2371965 Lehmberg Mar 1945 A
2376671 Fink May 1945 A
2415846 Randall Feb 1947 A
2438058 Kincheloe Mar 1948 A
2578621 Yant Dec 1951 A
2590006 Gordon Mar 1952 A
2931356 Schwarz Apr 1960 A
D188084 Garelick May 1960 S
2939458 Lundquist Jun 1960 A
3013556 Galleher Dec 1961 A
3182659 Blount et al. May 1965 A
3189027 Bartlett Jun 1965 A
3193624 Webb et al. Jul 1965 A
3238943 Holley Mar 1966 A
3315674 Bloom et al. Apr 1967 A
3330273 Bennett Jul 1967 A
3362420 Blackburn et al. Jan 1968 A
3363833 Laerdal Jan 1968 A
3556122 Laerdal Jan 1971 A
3580051 Blevins May 1971 A
3700000 Hesse et al. Oct 1972 A
3720235 Schrock Mar 1973 A
3750333 Vance Aug 1973 A
3752157 Malmin Aug 1973 A
3796216 Schwarz Mar 1974 A
3799164 Rollins Mar 1974 A
D231803 Huddy Jun 1974 S
3830230 Chester Aug 1974 A
4077404 Elam Mar 1978 A
D250131 Lewis et al. Oct 1978 S
4167185 Lewis Sep 1979 A
4226234 Gunderson Oct 1980 A
4245632 Houston Jan 1981 A
D262322 Mizerak Dec 1981 S
4304229 Curtin Dec 1981 A
4328797 Rollins, III et al. May 1982 A
4347205 Stewart Aug 1982 A
4354488 Bartos Oct 1982 A
4402316 Gadberry Sep 1983 A
4412537 Tiger Nov 1983 A
4467799 Steinberg Aug 1984 A
4522639 Ansite et al. Jun 1985 A
4558710 Eichler Dec 1985 A
4616647 McCreadle Oct 1986 A
4622964 Flynn Nov 1986 A
4655213 Rapoport et al. Apr 1987 A
4665570 Davis May 1987 A
4671271 Bishop et al. Jun 1987 A
4677975 Edgar et al. Jul 1987 A
4677977 Wilcox Jul 1987 A
D293613 Wingler Jan 1988 S
4739755 White et al. Apr 1988 A
4770169 Schmoegner et al. Sep 1988 A
4774941 Cook Oct 1988 A
4782832 Trimble et al. Nov 1988 A
4799477 Lewis Jan 1989 A
4809692 Nowacki et al. Mar 1989 A
4819629 Jonson Apr 1989 A
4821713 Bauman Apr 1989 A
4841953 Dodrill Jun 1989 A
4848334 Bellm Jul 1989 A
4848366 Aita et al. Jul 1989 A
4907584 McGinnis Mar 1990 A
4910806 Baker et al. Mar 1990 A
4919128 Kopala et al. Apr 1990 A
4938210 Shene Jul 1990 A
4938212 Gnook et al. Jul 1990 A
4944310 Sullivan Jul 1990 A
D310431 Bellm Sep 1990 S
4971051 Toffolon Nov 1990 A
4986269 Hakkinen Jan 1991 A
4989596 Macris et al. Feb 1991 A
4989599 Carter Feb 1991 A
5005568 Loescher et al. Apr 1991 A
5005571 Dietz Apr 1991 A
5038776 Harrison et al. Aug 1991 A
5042473 Lewis Aug 1991 A
5042478 Kopala et al. Aug 1991 A
5046200 Feder Sep 1991 A
5063922 Hakkinen Nov 1991 A
5069205 Urso Dec 1991 A
D323908 Hollister et al. Feb 1992 S
5109839 Blasdell et al. May 1992 A
5109840 Daleiden May 1992 A
5121745 Israel Jun 1992 A
5133347 Huennebeck Jul 1992 A
5140980 Haughey et al. Aug 1992 A
5140982 Bauman Aug 1992 A
5159938 Laughlin Nov 1992 A
5178138 Walstrom et al. Jan 1993 A
D334633 Rudolph Apr 1993 S
5231983 Matson et al. Aug 1993 A
5233978 Callaway Aug 1993 A
5243971 Sullivan et al. Sep 1993 A
5265595 Rudolph Nov 1993 A
5279289 Kirk Jan 1994 A
5280784 Kohler Jan 1994 A
5311862 Blasdell et al. May 1994 A
5322057 Raabe et al. Jun 1994 A
5343878 Scarberry et al. Sep 1994 A
5357951 Ratner Oct 1994 A
5372130 Stern et al. Dec 1994 A
5388571 Roberts et al. Feb 1995 A
5404871 Goodman et al. Apr 1995 A
5419318 Tayebi May 1995 A
5429126 Bracken Jul 1995 A
5429683 Le Mitouard Jul 1995 A
5431158 Tirotta Jul 1995 A
5438981 Starr et al. Aug 1995 A
5441046 Starr et al. Aug 1995 A
D362061 McGinnis et al. Sep 1995 S
5477852 Landis et al. Dec 1995 A
5479920 Piper et al. Jan 1996 A
5481763 Brostrom et al. Jan 1996 A
5488948 Dubruille et al. Feb 1996 A
5492116 Scarberry et al. Feb 1996 A
5501214 Sabo Mar 1996 A
5509404 Lloyd et al. Apr 1996 A
5517986 Starr et al. May 1996 A
5538000 Rudolph Jul 1996 A
5540223 Starr et al. Jul 1996 A
5542128 Lomas Aug 1996 A
5546936 Virag et al. Aug 1996 A
5558090 James Sep 1996 A
RE35339 Rapoport Oct 1996 E
5560354 Berthon-Jones et al. Oct 1996 A
5570682 Johnson Nov 1996 A
5570689 Starr et al. Nov 1996 A
D377089 Starr et al. Dec 1996 S
5592938 Scarberry et al. Jan 1997 A
5608647 Rubsamen et al. Mar 1997 A
5642730 Baran Jul 1997 A
5647355 Starr et al. Jul 1997 A
5647357 Barnett et al. Jul 1997 A
5649532 Oren Jul 1997 A
5649533 Griffiths Jul 1997 A
5655520 Howe et al. Aug 1997 A
5655527 Scarberry et al. Aug 1997 A
5657493 Ferrero et al. Aug 1997 A
5657752 Landis et al. Aug 1997 A
5662101 Ogden et al. Sep 1997 A
5666946 Langenback Sep 1997 A
5685296 Zdrojkowski et al. Nov 1997 A
5687715 Landis et al. Nov 1997 A
5715814 Ebers Feb 1998 A
5746201 Kidd May 1998 A
5813423 Kirchgeorg Sep 1998 A
5832918 Pantino Nov 1998 A
6044844 Kwok et al. Apr 2000 A
Foreign Referenced Citations (66)
Number Date Country
9177110 Nov 1991 AU
9464816 Dec 1994 AU
9516178 Jul 1995 AU
A 3291495 Feb 1996 AU
9459430 Feb 1996 AU
A 4101897 Apr 1998 AU
A 8931298 Jan 1999 AU
1039144 Sep 1928 CA
459104 Apr 1928 DE
701 690 Jan 1941 DE
159396 Jun 1981 DE
3015279 Oct 1981 DE
3345067 Jun 1984 DE
3537507 Apr 1987 DE
3539073 May 1987 DE
4004157 Apr 1991 DE
4343205 Jun 1995 DE
197 35 359 Jan 1998 DE
297 23 101 Jul 1998 DE
298 10846 Aug 1998 DE
0 054 154 Oct 1981 EP
0 252 052 Jan 1988 EP
0 264 772 Apr 1988 EP
0 386 605 Feb 1990 EP
0427474 May 1991 EP
0 462 701 Dec 1991 EP
0 602 424 Nov 1993 EP
0 608 684 Aug 1994 EP
0 0697 225 Jul 1995 EP
178 925 Apr 1996 EP
9 747 078 Dec 1996 EP
0 821 978 Feb 1998 EP
2 574 657 Jun 1986 FR
2 658 725 Aug 1991 FR
2 749 176 Dec 1997 FR
1395391 May 1975 GB
1 467 828 Mar 1977 GB
2145335 Mar 1985 GB
2147506 May 1985 GB
2 164 569 Mar 1986 GB
2 267 648 Dec 1993 GB
09216240 Aug 1997 JP
WO 8001044 May 1980 WO
WO 8203548 Oct 1982 WO
WO 8606969 Dec 1986 WO
WO 8701950 Apr 1987 WO
WO 9103277 Mar 1991 WO
WO 9215353 Sep 1992 WO
WO 9220395 Nov 1992 WO
WO 9301854 Feb 1993 WO
WO 9402190 Feb 1994 WO
WO 9416759 Aug 1994 WO
WO 9420051 Sep 1994 WO
WO 9502428 Jan 1995 WO
WO 9617643 Jun 1996 WO
WO 9625983 Aug 1996 WO
WO 9639206 Dec 1996 WO
WO 9707847 Mar 1997 WO
WO 9741911 Nov 1997 WO
WO 9804310 Feb 1998 WO
WO 9811930 Mar 1998 WO
WO 9818514 May 1998 WO
WO 9824499 Jun 1998 WO
WO 9826829 Jun 1998 WO
WO 9826830 Jun 1998 WO
WO 9848878 Nov 1998 WO
Non-Patent Literature Citations (22)
Entry
Photograph of Weinmann mask, acquired prior to 1998.
Sullivan Mirage brochure, copyright 1997, ResMed Ltd.
Sullivan Mirage brochure, copyright 1998, ResMed Ltd.
Mask 5 Photographs, Healthdyne Technologies, Nasal CPAP Mask (medium narrow), Part #702510.
Mask 6 Photographs, Healthdyne Technologies, Soft Series Nasal CPAP Mask, Part #702020.
Mask 7 Photographs, DeVilbiss Healthcare Inc., Small Mask and Seal Rings, Part #73510-668.
Mask 8 Photographs, Respironics Inc., Reusable Contour Mask (medium), Part #302180.
Mask 9 Photographs, Healthdyne Technologies, Healthdyne Large Headgear.
Mask 10 Photographs, Respironics Inc., Soft Cap (medium), Part #302142.
Mask 11 Photographs, Weinmann: Hamburg, Nasalmaskensystem mit Schalldämpfer (medium), Part #WN23105.
Mask 12 Photographs, Life Care.
Mask 13 Photographs, Healthdyne Technologies.
Mask 14 Photographs, King System.
Mask 15 Photographs, Respironics Inc., Pediatric Mask.
Mask 16 Photographs, Hans Rudolph Inc., Hans Rudolph Silicone Rubber Face Mask/8900.
Mask 1 Photographs, Respironics Inc., Reusable Full Mask (small) Part #452033 Lot #951108.
Mask 2 Photographs, Puritan—Bennett, Adam Curcuit, Shell Part #231700, Swivel Part #616329-00, Pillows (medium) Part #616324.
Mask 3 Photographs, DeVilbiss Healthcare Inc., Devilbiss Seal-Ring and CPAP Mask Kit (medium), Part #73510-669.
Mask 4 Photographs, Respironics Inc., Monarch Mini Mask with Pressure Port. Part #572004, Monarch Headgear, Part #572011.
“The ResMed Range of Mask Systems” product brochure, Nov. 1995, 4 pages.
Somnotron CPAP-Gerat WM 2300 instruction manual, Weinmann Hamburg, 11 pages, 1991.
9 photographs of Weinmann mask, WM 23122, 1991.
Continuations (1)
Number Date Country
Parent 09/008708 Jan 1998 US
Child 09/608440 US