(19)
(11)EP 2 704 784 B1

(12)EUROPEAN PATENT SPECIFICATION

(45)Mention of the grant of the patent:
03.08.2016 Bulletin 2016/31

(21)Application number: 12716530.6

(22)Date of filing:  27.03.2012
(51)International Patent Classification (IPC): 
A61M 16/06(2006.01)
A61M 15/00(2006.01)
(86)International application number:
PCT/GB2012/050676
(87)International publication number:
WO 2012/150441 (08.11.2012 Gazette  2012/45)

(54)

RESPIRATORY MASK

ATEMMASKE

MASQUE D'ASSISTANCE RESPIRATOIRE


(84)Designated Contracting States:
AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR

(30)Priority: 03.05.2011 GB 201107314

(43)Date of publication of application:
12.03.2014 Bulletin 2014/11

(73)Proprietor: Intersurgical AG
Vaduz (LI)

(72)Inventor:
  • BOWSHER, Richard Francis
    Reading Berkshire RG31 7DB (GB)

(74)Representative: Adamson Jones 
BioCity Nottingham Pennyfoot Street
Nottingham NG1 1GF
Nottingham NG1 1GF (GB)


(56)References cited: : 
EP-A1- 0 264 772
GB-A- 2 412 594
GB-A- 848 215
US-A1- 2010 258 131
  
      
    Note: Within nine months from the publication of the mention of the grant of the European patent, any person may give notice to the European Patent Office of opposition to the European patent granted. Notice of opposition shall be filed in a written reasoned statement. It shall not be deemed to have been filed until the opposition fee has been paid. (Art. 99(1) European Patent Convention).


    Description


    [0001] The present invention relates to respiratory masks suitable for delivery of gas for inhalation by a patient and more particularly, although not exclusively, to a mask which is suitable for use in therapy.

    [0002] Respiratory masks are used to supply inhalation gases, and possibly also atomised liquids such as drugs in solution, to the airways of a patient. In general, a gas is supplied to a respiratory enclosure defined by the respiratory mask and the face of the patient, and the patient inhales the inhalation gas from this respiratory enclosure. Conventional masks typically also have an inlet for the inhalation gas, and an outlet through which exhaled gas escapes the respiratory mask.

    [0003] A conventional respiratory mask is relatively flexible, and is typically formed as a unitary component of polyvinylchloride (PVC) material. This unitary component defines a cavity, and typically has an outwardly-turned peripheral rim that is urged against the patient's face, about their nose and mouth, when fitted to the patient.

    [0004] In order to maintain an effective seal between the peripheral rim of the respiratory mask and the patient's face, conventional respiratory masks have an elasticated strap that is placed about the patient's head so as to urge the respiratory mask against the face of the patient. In addition, a nose clip is typically fitted about the portion of the mask that surrounds the patient's nose so as to further improve the seal between the mask and the patient's face.

    [0005] Respiratory masks such as those described above may be used for oxygen therapy in which oxygen is administered to a patient at a concentration greater than that of ambient air, and/or aerosol therapy in which a fine mist of a drug in solution is inhaled by a patient.

    [0006] The relatively flexible PVC material of conventional respiratory masks allows these masks to conform to the contours of a patient's face to a limited degree in order to provide a seal. However the quality of the seal is relatively poor such that air may be entrained around the side of the mask in use. Additionally gas, intended for inhalation, may be leaked around the mask edges. Any such leakage requires the delivery of a larger volume of gas and/or an elevated delivery pressure to a patient. An insufficient seal also leads to uncertainty over the concentration of fluid being inhaled by the patient.

    [0007] It has therefore been proposed to provide a mask which is formed substantially of a more rigid plastics material but which has a seal about the periphery of the mask which is formed of a more supple material. An example of such a mask is provided in UK Patent number 2412594, which provides for an improved seal over conventional PVC masks. The respiratory mask of GB 2412594 comprises a mask body defining a cavity and being adapted to fit about the mouth and nose of a patient, and one or more sealing components extending from the peripheral edge of the mask body and defining a contact surface that extends both inwardly and outwardly from at least a portion of said peripheral edge and contacts the face of the patient during use.

    [0008] US2010258131 discloses a respirator including a mask having a body extending between a front edge and a rear edge, and a face seal extending inward from the body. The face seal has a first wall extending from the body and a second wall intersecting with the first wall at a sealing land. The sealing land is configured to contact a user's face to form a continuous circumferential seal. The face seal is folded over such that the first wall and the second wall both extend away from the sealing land in a common direction. Optionally, the face seal may be U-shaped

    [0009] In providing an improved seal, it is generally necessary to provide a tighter fit to the patient's face. This can be achieved by tightening a strap which passes around the patient's head during use. However it has been found that a tighter fit to a patient's face generally implies a more limited range of fit that can be accommodated by a mask. As such, a balance needs to be struck between a mask which can accommodate a wide range of face sizes or profiles and a mask which can provide an improved seal.

    [0010] It is an aim of the present invention to provide a mask which can provide an adequate seal for a relatively large range of face shapes and sizes.

    [0011] According to the invention, there is provided a respiratory mask as defined in the appended claim 1.

    [0012] A primary advantage of the invention is that a mask can be provided which beneficially forms a seal beneath the chin or lower jaw of a wearer but which also allows for a relatively larger range of facial profiles to be accommodated by a single mask design. Accordingly, the inwardly depending lip portion provides a seal about the mandible for wearers having a total facial height such that their nose and lower jaw can be located within the peripheral edge of the mask. The outwardly depending lip portion provides a seal about the mandible for wearers having a total facial height such that their nose and lower jaw cannot be located within the peripheral edge of the mask (i.e. such that their chin extends beyond the peripheral edge of the mask when the mask is located against the bridge of the wearer's nose).

    [0013] Thus the mask may be considered to be range-taking in a manner which does not adversely diminish the seal provided about the periphery of the mask. Each of the lip formations may advantageously be considered to be range-taking in its own right for relatively smaller and relatively larger wearer face profiles respectively.

    [0014] The resilient seal formation may be elastomeric. This may serve to improve the seal formed between the mask body and the face of the patient, and may also provide a more comfortable fit for a patient.

    [0015] The body may be shaped to provide a mandible engaging portion for wearers having smaller total facial height. The mandible engaging portion may be arranged to pass closely beneath the mandible of a wearer and may take the form of concave mask portion, which may be shaped so as to provide a sill or shelf formation beneath the wearer's mandible. The sill or shelf portion may be curved.

    [0016] The mandible engaging portion may also have a front facing wall portion which may be arranged for abutment against a wearer's chin. The mandible engaging portion may take the form of a chin cup.

    [0017] The portion of the body periphery about which the inwardly and outwardly depending lip portions extend may comprise a first or lower mask periphery portion. The seal formation may extend around substantially the entire peripheral edge of the mask body. The inwardly depending lip portion may extend around substantially the entire peripheral edge of the mask body. The outwardly depending lip portion may extend around only a part of the peripheral edge of the body. The outwardly depending lip formation may extend around the first portion. An outwardly depending lip formation may also extend about a second part of the peripheral edge which may be spaced from the first portion and may comprise a nasal contact region.

    [0018] The mask body may comprise a first material. The mask body may be formed substantially of the first material. The seal formation may be formed substantially of a second material. The first material may display greater rigidity or stiffness than the second material. The second material is preferably resiliently deformable.

    [0019] The inwardly depending lip portion may be generally planar in form. The inwardly depending lip portion may take the form of a simple upstanding wall which follows the contour of the peripheral edge of the body.

    [0020] The outwardly depending lip portion is concave in the same sense as the mask body. The outwardly depending lip portion may be shaped so as to provide a sill or shelf formation beneath the wearer's mandible. The outwardly depending lip portion may be shaped so as to provide both a forward facing lip portion and also a downward facing lip portion.

    [0021] The periphery of the body in the vicinity of the inner and outer lip portions may be shaped from a central point or region of the mask by a first radius. The inwardly depending lip portion typically has an inner edge of radius which is smaller than the first radius. The outwardly depending lip portion typically has an outer edge of radius which is larger than the first radius.

    [0022] According to one embodiment, the inwardly depending lip portion has an inner edge with a radius of curvature in the vicinity of the first periphery portion of the body which is greater than the radius of curvature of an outer edge of the outwardly depending lip portion in the vicinity of the first periphery portion of the body. The inwardly depending lip portion may comprise a substantially flat or linear inner edge portion. The outwardly depending lip portion may comprise an outer edge which displays a substantially constant radius of curvature in the vicinity of the first periphery portion of the body.

    [0023] In one embodiment, the inwardly and outwardly depending lip portions may be formed as a unitary or continuous member. There may be a smooth transition between the inwardly and outwardly depending lip portions.

    [0024] The seal formation may be formed by injection moulding. The body and seal formation may be co-formed by way of a moulding process. The body and seal formation may be co-formed as part of a so-called multi-shot injection moulding process such as a two-shot injection moulding process. In particular, the mask body is preferably injection moulded as a single component of a relatively rigid material, and the elastomeric material of the respiratory mask is then preferably injection moulded onto the surface of the mask body. The mask body and the elastomeric parts of the respiratory mask are bonded together by this process.

    [0025] The outwardly depending lip portion may be considered to provide a resilient extension portion of the mask body depending outwardly from a lower peripheral edge portion thereof.

    [0026] According to one embodiment, the mask may provide for a first fitment condition in which a wearer's mandible is contained within the peripheral edge of the body. The mask may provide for a second fitment condition in which the wearer's mandible protrudes beyond the peripheral edge of the body. The wearer's mandible may deform the inwardly facing lip portion in the first condition, so that the inwardly depending lip formation is urged against the face of the wearer, thereby forming a seal between the respiratory mask and the face of the wearer. The wearer's chin or mental protuberance may abut against the mask body in the first condition. The wearer's chin or mental protuberance may abut against the outwardly depending lip portion in the second condition.

    [0027] A relatively rigid mask body preferably defines the shape of the cavity and may be considered to provide an outer cavity wall. By "rigid" mask body is meant that the mask body maintains its shape when subjected to normal handling conditions. The mask body is preferably formed from plastics material in an injection moulding process. Most preferably, the mask body is formed of polypropylene.

    [0028] The inlet port preferably comprises an opening in the wall of the cavity, and a conventional tubular connector extending outwardly therefrom. Most preferably, the tubular connector extends from an opening in a nose portion of the mask body into a space adjacent to a mouth portion. The respiratory mask body may include openings that allow exhaled gases to escape from the cavity of the respiratory mask, during use. Where the respiratory mask is to be used for delivering a high concentration of an inhalation gas, such as oxygen, to a patient, the openings in the mask body may each include a valve.

    [0029] The inwardly and/or outwardly depending lip portions may be orientated generally perpendicularly to the wall of the cavity at the periphery of the mask.

    [0030] The elastomeric material of the respiratory mask is preferably a Styrene-Ethylene-Butylene-Styrene (SEBS)-based thermoplastic elastomer.

    [0031] The respiratory mask according to the invention may include means for securing the mask to the patient, in use. Such means may include an elasticated cord or strap that is fitted around the patient's head to urge the respiratory mask against the face of the patient. The elasticated cord or strap may be formed of elastomeric material, and may therefore be formed integrally with the remainder of the respiratory mask using the two-shot injection moulding process. Alternatively, the elasticated cord or strap may be formed as a separate component.

    [0032] A mask according to the present invention may carry the advantage that it may allow the cord or strap to be worn over the ears of a wearer. The mask arrangement according to the invention may help prevent a mask from slipping down and/or rising up a wearer's face in use.

    [0033] According to a further aspect of the invention, there is provided a respiratory mask for delivering an inhalation gas to the airways of a wearer, the respiratory mask comprising a body of generally concave shape and having a peripheral edge, the body being adapted to provide a cavity in use about the mouth and nose of a wearer, the body having an inlet port that is engageable with a supply of inhalation gas and in communication with the cavity, wherein the respiratory mask includes a resilient seal formation depending from at least a portion of the peripheral edge, the resilient seal formation comprising both an inwardly and outwardly depending lip portion relative to the peripheral edge of the body, the inwardly and outwardly depending lip portions providing for at least first and a second alternative fitment conditions in use.

    [0034] The first and second fitment conditions may allow the mask to be range-taking with respect to one or more facial dimensions of a wearer. Any optional features described with respect to the first aspect may also be applicable to the further aspect of the invention.

    [0035] The term 'gas' or 'inhalation gas' or 'inhalation fluid' as used herein is intended to cover gas streams which carry an amount vapour or liquid state matter therein as well as substantially gas-only streams.

    [0036] The invention will now be described in greater detail, by way of illustration only, with reference to the accompanying drawings, in which:

    Figure 1 is a front view of a respiratory mask according to a first embodiment of the invention;

    Figure 2 is a side view of the respiratory mask of Figure 1;

    Figure 3 is a three-dimensional view of the rear of the mask of Figure 1;

    Figure 4 is an above view of the respiratory mask of Figure 1;

    Figure 5 is a three-dimensional view from below a mask according to a second embodiment of the invention;

    Figure 6 is a three-dimensional view from below of a respiratory mask according to a third embodiment of the invention;

    Figure 7 is a three-dimensional view of the rear of the mask of Figure 6;

    Figure 8 is a side view of an assembly comprising the mask of Figure 6;

    Figure 9 shows detail of the valve of Figure 8 through section A-A;

    Figure 10 shows a section view of the mask of Figure 1 in a second usage condition; and,

    Figure 11 shows a section view of the mask of Figure 1 in a first usage condition.



    [0037] The respiratory mask according to the invention is advantageous principally because the resilient sealing member improves the seal between the respiratory mask and the face of the patient, and may also allow a single size of mask to be used with faces having a greater range of sizes than has hitherto been possible. The respiratory mask is particularly advantageous when used for oxygen and/or aerosol therapy.

    [0038] Turning firstly to Figures 1 to 4, there is shown a respiratory mask according to the present invention, which is suitable for the delivery of a gas to a wearer, such as a patient. The respiratory mask comprises a mask body 10, formed from a suitably strong and relatively rigid plastics material, such as polypropylene, and a sealing formation 20 formed from a Styrene-Ethylene-Butylene-Styrene (SEBS)-based thermoplastic elastomer.

    [0039] The respiratory mask is manufactured using a so-called two-shot injection moulding process. In particular, the mask body 10 is firstly injection moulded as a single component, and the sealing formation 20 is then injection moulded onto the surface of the mask body 10. The mask body 10 and the sealing formation 20 are bonded together by this process.

    [0040] The mask body 10 is generally concave, so as to define a cavity from which an inhalation gas is delivered to a patient, and comprises a mouth portion 11 and a nose portion 12. The mask body is shaped such that the depth of the cavity defined by the nose portion is greater than the depth of the cavity defined by the mouth portion. The nose portion 12 is tapered towards an apex 12A that is shaped to fit around the bridge of the patient's nose.

    [0041] The mouth portion 11 generally comprises a forward-facing, front wall 14 and a laterally-extending bottom wall portion 15, which may otherwise be described as a sill. The front wall 14 comprises a step and adjoins the sill 15 at an intermediate wall portion 16, the interior face of which serves as an abutment in use as will be described below. To either side of the front wall 14, there are side wall portions 17, which are arranged to be located adjacent a wearer's cheeks or jowls, and particularly the lower portion thereof, in use.

    [0042] The sealing formation 20 is a unitary flange member that is bonded to, and extends from, the edge of the mask body 10. The sealing formation 20 comprises an inwardly depending lip portion 22, which extends into the opening defined by the edge of the mask body 10, such that the lip portion 22 forms a substantially flat, and continuous, contact surface within the periphery of the mask that is urged against the face of the patient during use. The sealing lip portion 22, and hence the contact surface, entirely surrounds the inner edge of the mask body 10.

    [0043] The elastomeric nature of the sealing formation 20 enables an effective seal to be formed between the contact surface of the respiratory mask and the face of the patient. Also, the lip portion 22 has discontinuities therein in the form of slits 24 which allow the lip portion 22 to deform about the different contour portions of a wearer's face. Such slits 24 are provided in the region of the apex 12A and also in the lip portion where it is intended to contact a wearer's cheeks and/or lower jaw in use.

    [0044] The lip portion 22 extends in a generally perpendicular direction relative to the mask body 10 at its peripheral edge in the manner of an upstanding wall. The lip portion 22 is of substantially continuous height around the periphery of the mask such that the inner edge of the lip follows the contours of the mask body periphery.

    [0045] However at the bottom wall portion 15 of the mask body, the lip portion 22 is shaped so as to provide an inner edge region 26 which is substantially flat. This allows the lip portion to accommodate a wide range of lower jaw profiles of a wearer. This may also allow a depth of lip which accommodates a relatively wide range of lower face heights or total face heights of potential wearers.

    [0046] The sealing formation 20 of the respiratory mask according to the invention also comprises an outwardly depending lip portion 28 in the vicinity of the mask body sill 15. The lip portions 22 and 28 are formed integrally as portions of the sealing formation 20. The lip portion 28 extends outwardly from the periphery of the mask body, primarily below the lower edge of the mask body. In other embodiments, the lip portion 28 may also extend outwardly from the sides (i.e. laterally) of the mask body.

    [0047] The lip portion 28 (as can be seen in Figure 2) is curved in shape so as to provide a generally concave form and has a front facing wall portion 29 and a generally laterally extending, or downward facing, wall portion or sill 30. The lip portion 28 has an outer edge 32 which follows a generally smooth profile of substantially constant curvature in plan, as can be seen in Figures 1 and 3. When viewed from above, it can be seen that the outer edge 32 is generally straight, such that the edge is contained substantially within a plane (i.e. a substantially vertical plane in the orientation of Figure 2).

    [0048] A further outwardly depending sealing lip portion 34 may be provided at the periphery of the nose region 12 of the mask body 10. That lip portion 34 may be shaped to taper towards an apex in a manner similar to the profile of the mask body 10. The lip portion 34 and/or the associated part of the body periphery may comprise one or more folds or steps 36 (see Figure 2) so as to provide a cushioning effect and/or close fitment against a wearer's nose.

    [0049] The lip portions 22 and 34 provide an effective seal between the respiratory mask and the face of the patient, which may allow the respiratory mask to be used without a nose clip.

    [0050] The mask body 10 further comprises an inlet port 13 for connection to a supply of an inhalation gas, such as oxygen, and a plurality of exhalation openings 18. The inlet port 13 comprises an opening in a lower wall of the nose portion 12, and a tubular connector that extends downwardly (as viewed in Figures 1 and 2) from this opening into the space in front of the mouth portion 11. In use, a supply of an inhalation gas is connected to the tubular connector of the inlet port 13 so as to supply the inhalation gas to the cavity of the respiratory mask and hence the airways of the patient.

    [0051] The exhalation openings 18 in this embodiment are elongate apertures in the wall of the mask body 10 that allow exhaled gases to exit the cavity of the respiratory mask. A pair of exhalation openings is provided to either side of the nose portion 12. A generally vertically aligned exhalation opening is also provided on either side of the font wall 14 of the mouth portion 11 (i.e. in side walls 17). Whilst such arrangement of openings has been found to be beneficial, it will be appreciated that other shapes, configurations and orientations are possible.

    [0052] The body 10 has a pair of outwardly extending flange formations 19 on either side of the respiratory mask which are arranged to receive an elastic strap in use. Each flange is located adjacent the peripheral edge of the mask body and has an aperture, to which an elasticated strap (not shown in the Figures) is attached, in use. The elastic strap extends between the flanges 19, and fits around the patient's head when the respiratory mask is fitted to the patient. In use, the strap is adjusted so that the respiratory mask is urged against the face of the patient with an appropriate force to ensure that an effective seal is formed between the periphery of the respiratory mask and the wearer's face, without causing excessive discomfort for the wearer.

    [0053] The mask of Figure 1 is shown in different usage conditions in Figures 10 and 11. For use, the mask is located against a wearer's face. The correct positioning of the mask is generally determined by the location of the apex 12A of the nose portion 12 against the bridge of a wearer's nose. This is typically at, or slightly below, the nasion. The inwardly depending lip portion 22 contacts the wearer's face about the periphery of the mask such that the wearer's nose and mouth are located in the mask cavity. The wearer's mouth is accommodated within the mouth portion 11 of the mask body 10 and the wearer's nose is accommodated within the nose portion 12 of the mask body 10. The nose portion 12 of the mask body 10 is tapered towards the upper end of the mask and hence the bridge of the patient's nose.

    [0054] However the total facial height of wearers (i.e. the height from the wearer's nasion to the gnathion, or lowest point of the manible) can vary significantly between wearers. Accordingly, when apex 12A of the mask is correctly positioned, the wearer's face, particularly their lower jaw or chin, may engage with the lower portion of the mask at varying locations. For conventional masks, this varying fitment can adversely affect the quality of the seal provided between the mask and face. This problem is addressed by the mask according to the invention as will be described in relation to Figures 10 and 11 below.

    [0055] In Figure 11, the mask is fitted to a wearer's face 38, the facial length of which is indicated as dimension Y. In this example, the facial length is relatively small, such that, when the apex of the sealing lip portion 34 is located against the bridge 40 of the wearer's nose, the lowermost lateral face, or sill 15, of the mask body 10 can be located immediately beneath the wearer's mandible, more specifically beneath the wearer's gnathion or mental protuberance. The frontal portion of the wearer's chin thus abuts against the intermediate wall portion 16 of the mask body 10. In this condition, the inwardly depending lip portion 22, and particularly inner edge 26 thereof, is contacted by the wearer's mandible such that it is deformed in a direction towards the mask body, or otherwise into the mask cavity.

    [0056] Thus the mask body provides a chin cup formation and the inner lip portion 22 provides a seal against the wearer's lower jaw.

    [0057] In Figure 10, the mask is fitted to a wearer's face 42, having a relatively large facial length, which is indicated as dimension Y'. When the apex of the sealing lip portion 34 is located against the bridge 44 of this wearer's nose, the wearer's gnathion or lower jaw protrudes beyond the lowermost lateral face, or sill 15, of the mask body 10, even when the wearer's jaw is closed. Accordingly, in this condition, the frontal portion of the wearer's chin abuts against the front wall portion 29 of outwardly protruding lip portion 28 and the lower region of the wearer's mandible contacts the sill 30 of the lip portion 28. In this condition, the seal with the wearer's mandible is provided primarily by the lip portion 28, which serves as a chin cup. The inwardly depending lip portion 22 may also contact the front of the wearer's chin to provide a further sealing effect.

    [0058] Accordingly the mask provides a good seal against the wearer's face in either of the conditions of Figures 10 and 11 such that the wearer can inhale and exhale with minimal loss of gas around the peripheral edge of the mask.

    [0059] It is further noted as an advantage of the present invention that, in providing for different facial lengths of wearers, the mask may also allow for movement of a wearer's jaw without substantial loss of the seal between the mask and the wearer's face, such as for example, when a wearer is talking, yawning, masticating or the like. In this regard, the resilient and flexible nature of the lip portion 28 can accommodate a degree of jaw movement.

    [0060] Also, when the outwardly depending lip portion is redundant, such as when the mask is worn in the first condition as shown in Figure 11, it is possible that the outwardly depending lip portion can be turned or flipped over onto the outer faces of the sill and intermediate wall portion 15 and 16 of the mask body 10. Thus the lip portion 28 can be actuated between an in-use and a storage condition and vice versa.

    [0061] Turning now to Figures 5-9, further embodiments of the invention are shown. Each of those embodiments share the same physical features and associated method of fitment or operation to the embodiments described above, save for the differences described below. Accordingly, like features between the embodiments will not be reiterated for conciseness. Whilst the embodiment of Figures 1-4 is suited for attachment to a conventional gas delivery system for the supply of a gas, such as oxygen, to a patient, it is not limited to such use and the mask may be substituted for any of the embodiments described below wherever practicable.

    [0062] The mask of Figure 5 is equivalent to that of Figure 1, save that the inlet port 13A has a greater width or diameter than the corresponding port 13 in Figures 1-4. The inlet port 13A also comprises a plurality of location formations in the form of ribs or splines 102 spaced about its inner surface. The splines are elongate in form and aligned with an axis of the inlet port. The inlet port 13A is thus arranged to receive a corresponding duct (not shown) within its interior. Such an arrangement is particularly suitable to provide a connection with ducting as may be used for delivery of an atomised liquid or vapour to a wearer, such as for example by way of an aerosol, and accordingly, mask 100 may be used as an aerosol therapy mask.

    [0063] The mask 200 of Figures 6-9 may be suitable for use as a high-concentration delivery mask, wherein gas is communicated to a wearer in a pre-determined concentration, which is desired to be closely maintained. Accordingly, the openings 18 of mask body 10 have been substituted in mask 200 for openings 202, which have an associated closure member 204. The mask body of mask 200 is shaped to provide a support structure 206 across the openings 202 so as to hold the closure member in place over the opening. The openings 202 and associated closure members are generally circular in plan in this embodiment.

    [0064] As can be seen in Figure 9, the closure 204 is resiliently deformable and is tucked under an edge of the opening in the mask body such that the closure 204 is biased towards a closed position. Accordingly the closure only opens to allow fluid communication with the exterior of the mask body upon application of a pressure differential there-across which is sufficient to overcome the resilience of the closure member material.

    [0065] In the manner described above, the openings 202 and associated closure members 204 act as valves to control discharge of fluid from the mask during exhalation by the wearer. Accordingly the interior of the mask is generally sealed from the exterior of the mask so as to allow greater control and predictability of the fluid inhaled by the wearer. This is particularly suited to high-concentration therapy applications.

    [0066] In Figure 7, it can be seen that a similar valve configuration 210 is provided at the inlet port 208 to regulate flow into the mask during inspiration. That valve may be formed in the mask body itself but is typically provided within an associated ducting 212 which is connected to the inlet duct 208 for use as shown in Figure 8. The ducting 212 may be of conventional design and the inlet port 208 may be shaped to accommodate such ducting. In particular the inlet port 208 may be of relatively short length and increased diameter compared to the inlet port of Figure 1. Where the respiratory mask is to be used for delivering a high concentration of an inhalation gas, such as oxygen, to a patient, the openings in a reservoir bag will generally be connected to the inlet port via associated ducting.

    [0067] All the embodiments described above display corresponding peripheral sealing formations and thus can be fitted to wearers in the manner described above in relation to Figures 1-4, 10 and 11.


    Claims

    1. A respiratory mask for delivering an inhalation fluid to the airways of a wearer, the respiratory mask comprising:

    a body (10) of generally concave shape and having a peripheral edge, the body (10) being adapted to provide a cavity in use about the mouth and nose of a wearer such that the inhalation gas can be inhaled by the wearer from the cavity, the body having an inlet port (13) that is engageable with a supply of inhalation gas and in communication with the cavity; and,

    a resilient seal formation (20) depending from at least a portion of the peripheral edge, the resilient seal formation (20) comprising both a first and a second lip portion (22,28) relative to the peripheral edge of the body,

    the first lip portion (22) depending inwardly from the peripheral edge of the body (10) into the cavity and the second lip portion (28) depending outwardly from the peripheral edge of the body (10);

    the first lip portion (22) being arranged to pass closely beneath the mandible of a wearer having a smaller total facial height, providing, in use, a seal about the mandible for wearers having a total facial height such that their nose and lower jaw can be located within the peripheral edge of the mask, and

    characterised in that the second lip portion (28) is arranged to pass closely beneath the mandible of a wearer having a larger total facial height, providing, in use, a seal about the mandible for wearers having a total facial height such that their nose and lower jaw cannot be located within the peripheral edge of the mask, wherein the second lip portion (28) is concave in shape in the same way as the mask body so as to provide a chin cup for a wearer having a larger total facial height.


     
    2. A respiratory mask according to claim 1, wherein the mask accommodates both a first and a second fitment conditions, the first condition being when the first lip portion (22) passes closely beneath the mandible of a wearer having a smaller total facial height, and the second condition being when the second lip portion (28) passes closely beneath the mandible of a wearer having a larger total facial height.
     
    3. A respiratory mask according to claim 1 or claim 2, wherein the body (10) is shaped to provide a mandible engaging portion (15) for a wearer having a smaller total facial height, the mandible engaging portion (15) being shaped to pass closely beneath the mandible of said wearer.
     
    4. A respiratory mask according to claim 3, wherein the mandible engaging portion of the body comprises a sill formation (15) arranged to pass beneath the wearer's mandible and an upstanding wall portion (16) arranged for abutment against a frontal portion of said wearer's chin.
     
    5. A respiratory mask according to any preceding claim, wherein the second lip portion (28) depends from only a first region of the peripheral edge of the body (10).
     
    6. A respiratory mask according to any preceding claim, wherein the first lip portion (22) extends around substantially the entire peripheral edge of the mask body (10).
     
    7. A respiratory mask according to any preceding claim, wherein the mask body (10) is formed substantially of a first material and the seal formation (20) is formed substantially of a second material, wherein the rigidity of the first material is greater than that of the second material.
     
    8. A respiratory mask according to any preceding claim, wherein the second lip portion (28) depends from a lower region of the peripheral edge of the body (10), and wherein the first lip portion (22) has an inner edge with a radius of curvature in the vicinity of the lower peripheral region of the body (10) which is greater than the radius of curvature of an outer edge of the second lip portion (28) in the vicinity of the lower peripheral region of the body (10).
     
    9. A respiratory mask according to claim 8, wherein the first lip portion (22) comprises a substantially straight inner edge (26) in the vicinity of the lower peripheral region of the body (10) and the second lip portion (28) comprises an outer edge (32) which displays a substantially constant radius of curvature in the vicinity of said first periphery region of the body (10).
     
    10. A respiratory mask according to any preceding claim, wherein the first and second lip portions (22,28) are formed as a unitary seal formation.
     
    11. A respiratory mask according to any preceding claim, wherein the body (10) and the seal formation (20) are formed by a multi-shot moulding process.
     
    12. A respiratory mask according to any preceding claim, wherein a wearer's mandible is contained within the peripheral edge of the body (10) in a first fitment condition and wherein a wearer's mandible protrudes beyond the peripheral edge of the body (10) in a second fitment condition so as to engage with the second lip portion (28).
     
    13. A respiratory mask according to claim 12, wherein the wearer's mandible deforms the first lip portion (22) in the first condition, so that the first lip formation (22) is urged against the face of the wearer, thereby forming a seal between the respiratory mask and the face of the wearer.
     


    Ansprüche

    1. Atemmaske für die Zufuhr eines Inhalationsfluids an die Atemwege eines Trägers, wobei die Atemmaske folgendes umfasst:

    einen Körper (10) in allgemein konkaver Form und mit einer peripheren Kante, wobei der Körper (10) im Einsatz eine Kavität um den Mund und die Nase eines Trägers bereitstellen kann, so dass Inhalationsgas durch den Träger aus der Kavität eingeatmet werden kann, wobei der Körper einen Einlassanschluss (13) aufweist, der mit einer Inhalationsgasversorgung eingreifen kann und sich in Kommunikation mit der Kavität befindet; und

    eine elastische Dichtungsformation (20), die von wenigstens einem Teil der peripheren Kante abhängig ist, wobei die elastische Dichtungsformation (20) sowohl einen ersten als auch einen zweiten Lippenabschnitt (22, 28) im Verhältnis zu der peripheren Kante des Körpers umfasst;

    wobei der erste Lippenabschnitt (22) einwärts von der peripheren Kante des Körpers (10) in die Kavität abhängig ist, und wobei der zweite Lippenabschnitt (28) auswärts von der peripheren Kante des Körpers (10) abhängig ist;

    wobei der erste Lippenabschnitt (22) so angeordnet ist, dass er dicht unter der Mandibel eines Trägers mit einer kleineren Gesamtgesichtshöhe verläuft, wobei im Einsatz für Träger mit einer Gesamtgesichtshöhe eine Dichtung um die Mandibel bereitgestellt wird, so dass deren Nase und Unterkiefer sich innerhalb der peripheren Kante der Maske befinden können; und

    dadurch gekennzeichnet, dass der zweite Lippenabschnitt (28) so angeordnet ist, dass er dicht unter der Mandibel eines Trägers mit einer größeren Gesamtgesichtshöhe verläuft, wobei im Einsatz für Träger mit einer Gesamtgesichtshöhe eine Dichtung um die Mandibel bereitgestellt wird, so dass deren Nase und Unterkiefer sich nicht innerhalb der peripheren Kante der Maske befinden können, wobei der zweite Lippenabschnitt (28) eine konkave Form in gleicher Weise wie der Maskenkörper aufweist, so dass eine Kinnschale für einen Träger mit einer größeren Gesamtgesichtshöhe bereitgestellt wird.


     
    2. Atemmaske nach Anspruch 1, wobei die Maske erste und zweite Anpassungszustände berücksichtigt, wobei es sich bei dem ersten Zustand darum handelt, wenn der erste Lippenabschnitt (22) dicht unter der Mandibel eines Trägers mit einer kleineren Gesamtgesichtshöhe verläuft, und wobei es sich bei dem zweiten Zustand darum handelt, wenn der zweite Lippenabschnitt (28) dicht unter der Mandibel eines Trägers mit einer größeren Gesamtgesichtshöhe verläuft.
     
    3. Atemmaske nach Anspruch 1 oder 2, wobei der Körper (10) so geformt ist, dass er einen Mandibeleingriffsabschnitt (15) für einen Träger mit einer kleineren Gesamtgesichtshöhe bereitstellt, wobei der Mandibeleingriffsabschnitt (15) so geformt ist, dass er dicht unter der Mandibel des Trägers verläuft.
     
    4. Atemmaske nach Anspruch 3, wobei der Mandibeleingriffsabschnitt des Körpers eine Schwellenformation (15) umfasst, die so angeordnet ist, dass sie unter der Mandibel des Trägers verläuft, und einen aufrecht stehenden Wandabschnitt (16), der so angeordnet ist, dass er an einen vorderen Abschnitt des Kinns des Trägers anstößt.
     
    5. Atemmaske nach einem der vorstehenden Ansprüche, wobei der zweite Lippenabschnitt (28) nur von einem ersten Bereich der peripheren Kante des Körpers (10) abhängig ist.
     
    6. Atemmaske nach einem der vorstehenden Ansprüche, wobei sich der erste Lippenabschnitt (22) im Wesentlichen um die ganze periphere Kante des Maskenkörpers (10) erstreckt.
     
    7. Atemmaske nach einem der vorstehenden Ansprüche, wobei der Maskenkörper (10) im Wesentlichen aus einem ersten Material besteht, und wobei die Dichtungsformation (20) im Wesentlichen aus einem zweiten Material besteht, wobei die Steifheit des ersten Materials höher ist als die des zweiten Materials.
     
    8. Atemmaske nach einem der vorstehenden Ansprüche, wobei der zweite Lippenabschnitt (28) von einem unteren Bereich der peripheren Kante des Körpers (10) abhängig ist, und wobei der erste Lippenabschnitt (22) eine Innenkante mit einem Krümmungsradius in der Nähe des unteren peripheren Bereichs des Körpers (10) aufweist, der größer ist als der Krümmungsradius einer äußeren Kante des zweiten Lippenabschnitts (28) in der Nähe des unteren peripheren Bereichs des Körpers (10).
     
    9. Atemmaske nach Anspruch 8, wobei der erste Lippenabschnitt (22) eine im Wesentlichen gerade innere Kante (26) in der Nähe des unteren peripheren Bereichs des Körpers (10) aufweist, und wobei der zweite Lippenabschnitt (28) eine äußere Kante umfasst, die einen im Wesentlichen konstanten Krümmungsradius in der Nähe des genannten ersten peripheren Bereichs des Körpers (10) aufweist.
     
    10. Atemmaske nach einem der vorstehenden Ansprüche, wobei der erste und der zweite Lippenabschnitt (22, 28) als eine unitäre Dichtungsformation ausgebildet sind.
     
    11. Atemmaske nach einem der vorstehenden Ansprüche, wobei der Körper (10) und die Dichtungsformation (20) durch einen Mehrfachformprozess gebildet sind.
     
    12. Atemmaske nach einem der vorstehenden Ansprüche, wobei sich die Mandibel eines Trägers in einem ersten Anpassungszustand innerhalb der peripheren Kante des Körpers (10) befindet, und wobei die Mandibel eines Trägers in einem zweiten Anpassungszustand über die periphere Kante des Körpers (10) vorsteht, um mit einem zweiten Lippenabschnitt (28) einzugreifen.
     
    13. Atemmaske nach Anspruch 12, wobei die Mandibel des Trägers den ersten Lippenabschnitt (22) in dem ersten Zustand verformt, so dass die erste Lippenformation (22) gegen das Gesicht des Trägers gedrückt wird, wodurch eine Dichtung zwischen der Atemmaske und dem Gesicht des Trägers gebildet wird.
     


    Revendications

    1. Masque respiratoire pour administrer un fluide par inhalation aux voies respiratoires d'un porteur, le masque respiratoire comprenant :

    un corps (10) de forme généralement concave et ayant un bord périphérique, le corps (10) étant conçu pour créer une cavité lors de l'utilisation autour de la bouche et du nez d'un porteur de sorte que le gaz d'inhalation puisse être inhalé par le porteur à partir de la cavité, le corps ayant un orifice d'entrée (13) qui peut venir en prise avec une alimentation en gaz d'inhalation et est en communication avec la cavité ; et,

    une formation de joint résilient (20) pendant au moins d'une partie du bord périphérique, la formation de joint résilient (20) comprenant une première et une seconde partie de lèvre (22,28) par rapport au bord périphérique du corps,

    la première partie de lèvre (22) pendant vers l'intérieur à partir du bord périphérique du corps (10) dans la cavité et la seconde partie de lèvre (28) pendant vers l'extérieur à partir du bord périphérique du corps (10) ;

    la première partie de lèvre (22) étant conçue pour passer étroitement sous la mandibule d'un porteur ayant une hauteur faciale totale plus petite, créant, lors de l'utilisation, un joint autour de la mandibule pour les porteurs ayant une hauteur faciale totale telle que leur nez et mâchoire inférieure peuvent être situés au sein du bord périphérique du masque, et

    caractérisé en ce que la seconde partie de lèvre (28) est disposée pour passer étroitement sous la mandibule d'un porteur ayant une plus grande hauteur faciale totale, créant, lors de l'utilisation, un joint autour de la mandibule pour les porteurs ayant une hauteur faciale totale telle que leur nez et mâchoire inférieure ne peuvent pas être situés au sein du bord périphérique du masque, la seconde partie de lèvre (28) étant de forme concave de la même manière que le corps de masque de sorte à fournir une coupelle de menton pour un porteur ayant une plus grande hauteur faciale totale.


     
    2. Masque respiratoire selon la revendication 1, le masque s'adaptant à une première et à une seconde condition de montage, la première condition étant lorsque la première partie de lèvre (22) passe étroitement sous la mandibule d'un porteur ayant une hauteur faciale totale plus petite, et la seconde condition étant lorsque la seconde partie de lèvre (28) passe étroitement sous la mandibule d'un porteur ayant une plus grande hauteur faciale totale.
     
    3. Masque respiratoire selon la revendication 1 ou 2, le corps (10) ayant une forme pour fournir une partie venant en prise avec la mandibule (15) pour un porteur ayant une plus petite hauteur faciale totale, la partie venant en prise avec la mandibule (15) ayant une forme pour passer étroitement sous la mandibule dudit porteur.
     
    4. Masque respiratoire selon la revendication 3, la partie venant en prise avec la mandibule du corps comprenant une formation d'appui (15) conçue pour passer sous la mandibule du porteur et une partie de paroi verticale (16) conçue pour venir en prise contre une partie frontale du menton dudit porteur.
     
    5. Masque respiratoire selon l'une quelconque des revendications précédentes, la seconde partie de lèvre (28) pendant seulement d'une première région du bord périphérique du corps (10).
     
    6. Masque respiratoire selon l'une quelconque des revendications précédentes, la première partie de lèvre (22) s'étendant sensiblement autour du bord périphérique complet du corps de masque (10).
     
    7. Masque respiratoire selon l'une quelconque des revendications précédentes, le corps de masque (10) étant formé sensiblement d'un premier matériau et la formation de joint (20) étant formée sensiblement d'un second matériau, la rigidité du premier matériau étant supérieure à celle du second matériau.
     
    8. Masque respiratoire selon l'une quelconque des revendications précédentes, la seconde partie de lèvre (28) pendant d'une région inférieure du bord périphérique du corps (10), et la première partie de lèvre (22) ayant un bord interne avec un rayon de courbure à proximité de la région périphérique inférieure du corps (10) qui est plus grand que le rayon de courbure d'un bord externe de la seconde partie de lèvre (28) à proximité de la région périphérique inférieure du corps (10).
     
    9. Masque respiratoire selon la revendication 8, la première partie de la lèvre (22) comprenant un bord interne sensiblement droit (26) à proximité de la région périphérique inférieure du corps (10) et la seconde partie de lèvre (28) comprenant un bord externe (32) qui affiche un rayon de courbure sensiblement constant à proximité de ladite première région de périphérie du corps (10).
     
    10. Masque respiratoire selon l'une quelconque des revendications précédentes, les première et seconde parties de lèvre (22, 28) étant formées comme une formation de joint unitaire.
     
    11. Masque respiratoire selon l'une quelconque des revendications précédentes, le corps (10) et la formation de joint (20) étant formés par un procédé de moulage multi-injection.
     
    12. Masque respiratoire selon l'une quelconque des revendications précédentes, la mandibule d'un porteur étant contenue au sein du bord périphérique du corps (10) dans une première condition de montage et la mandibule d'un porteur faisant saillie au-delà du bord périphérique du corps (10) dans une seconde condition de montage de sorte à venir en prise dans la seconde partie de lèvre (28).
     
    13. Masque respiratoire selon la revendication 12, la mandibule du porteur déformant la première partie de lèvre (22) dans la première condition, de sorte que la première formation de lèvre (22) soit poussée contre le visage du porteur, formant ainsi un joint entre le masque respiratoire et le visage du porteur.
     




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    Cited references

    REFERENCES CITED IN THE DESCRIPTION



    This list of references cited by the applicant is for the reader's convenience only. It does not form part of the European patent document. Even though great care has been taken in compiling the references, errors or omissions cannot be excluded and the EPO disclaims all liability in this regard.

    Patent documents cited in the description