The invention relates to a mask system for use with positive pressure ventilation of sleep disordered breathing. In particular, the invention relates to a low cost mask system.
Obstructive Sleep Apnea (OSA) is a condition characterised by repetitive obstruction of the upper airway often resulting in oxygen desaturation and arousals from sleep. The classic daytime manifestation is excessive sleepiness but other symptoms such as unrefreshing sleep, poor concentration and fatigue are commonly reported (Sleep-Related Breathing Disorders in Adults-AASM Task Force, Sleep 22, 1999)
The use of nasal continuous positive airway pressure (CPAP) to treat OSA was taught by Sullivan in U.S. Pat. No. 4,944,310. Other developments are taught in U.S. Pat. Nos. 5,704,345; 6,029,665 and 6,363,933.
Nasal CPAP systems typically comprise a flow generator, air tubing, and a patient interface (for example, a nasal mask). The flow generator provides a supply of air at positive pressure.
A variety of mask systems are known for use in treating sleep disordered breathing (SDB), such as the BUBBLE® mask, MIRAGE®, ULTRA MIRAGE®, and MIRAGE VISTA™ masks, all manufactured by ResMed Limited.
Another known mask is the Weinmann nasal mask.
A mask system typically comprises headgear and a mask assembly. The headgear is used to hold and position the mask on the face of a patient. The mask assembly typically comprises at least a rigid shell and a soft face-contacting cushion. Some mask assemblies also include elbows, vents, headgear clips, forehead supports.
A number of cushions have been patented, for example see U.S. Pat. Nos. 6,112,746; 6,357,441; 6,513,526; as have forehead supports (See U.S. Pat. Nos. 6,119,693; 6,463,931; 6,520,182; 6,532,961), headgear connectors (U.S. Pat. No. 6,374,826), mask ports (U.S. Pat. No. 6,439,230), and cushion clips (U.S. Pat. No. 6,412,487). The contents of all these patents are hereby incorporated by cross-reference.
Another known mask assembly the PAPILLION™ mask, manufactured by MAP, Germany is shown in Austrian Design Registrations #50770 and #50771 (and U.S. Design Pat. D484,237 and Australian Design Registration Application 2153/2002).
Since mask systems for treating sleep disordered breathing have to be worn for several hours every night while a patient sleeps, designers strive to make them comfortable. In particular, they strive to attempt to eliminate the mask system being a source of pressure sores on a patient's face.
A problem which can occur in prior art mask systems is that there can be drag forces from the tube which when transferred through the elbow can disrupt the seal of the cushion on the face.
One solution to this problem is found in U.S. Pat. No. 6,039,044. It is an aspect of the invention to provide at least an alternative solution to this problem.
A difficulty with some prior art mask assemblies is that those which achieve a clinically effective seal while being comfortable to wear each night at home can be expensive to manufacture. Headgear can represent a significant proportion of the cost of manufacturing a mask system. The manufacturing costs are passed onto customers which leads to a more expensive mask assembly for patients. This may in turn mean that fewer patients can afford treatment. This may also mean that there can be a tendency for clinics and hospitals to reuse masks among numerous patients. Unless thorough hygiene systems are put in place to manage cross-infection it is not advised that a mask be re-used by different patients. In general, particularly in hospitals with the advent of respiratory diseases such as SARS, it is desirable to have a mask system which is cheap enough to be disposable.
It is a further aspect of the invention to provide a low cost mask assembly for treating sleep disordered breathing.
It is a further aspect of the invention to provide a disposable mask assembly for treating sleep disordered breathing.
Throughout this specification and claims, a combination shell and cushion will hereinafter be referred to as a “shell/cushion”. Whilst this is done for convenience, where ever the expression “shell/cushion” appears it should be read as meaning the combined shell and cushion.
In accordance with a first aspect of the invention, there is provided a comfortable low cost mask system comprising headgear, a combination shell/cushion, a frame, elbow and retaining ring.
In accordance with another aspect of the invention, there is provided a low cost headgear.
In accordance with another aspect of the invention, there is provided a comfortable shell/cushion which has a reduced tendency to cause pressure points on a patient's face.
In one embodiment, a mask system for treating sleep disordered breathing comprises headgear, a shell/cushion including a channel adjacent a front aperture, a frame, an elbow including at least one undercut on a proximal end and a retaining ring including a rear flange adapted to be retainably insertable in the channel of the shell/cushion and a front flange adapted to retainably engage with the at least one undercut of the elbow.
There can be a thin walled section adjacent the channel of the shell/cushion which is adapted to tear upon removal of the elbow.
The elbow construction can help prevent separation of the aperture from the retaining ring during normal use.
The elbow when separate from the mask can have a cylindrical outlet.
The shell/cushion can include an annular flange which when assembled with the elbow or said connection piece engages a rim of said outlet to thereby suitably seal the outlet to said flange.
In another embodiment, a mask system for treating sleep disordered breathing comprises headgear, a frame, and shell/cushion including a frame-receiving channel defined by a front flange and a rear flange, the front flange extending 75% to 100% of the way around the perimeter of the shell/cushion, wherein the frame is adapted to be removably insertable in the frame-receiving channel of the shell/cushion.
This mask system can include at least a nasal bridge region of the shell/cushion adapted to contact the nasal bridge region of a patient. The rear flange of the nasal bridge region can be from 1 mm to 3 mm thick. The rear flange can be approximately 2 mm thick.
In still another embodiment, a connection piece for connecting a mask to a conduit which can carry an air flow to said mask is provided. The connection piece includes an inlet and an outlet and a passage wall to carry the air flow therebetween, the connection piece including, in the vicinity of said outlet between said outlet and said inlet, a vent wall extending away from the passage wall, the vent wall including at least one aperture therethrough.
The connection piece can be formed integrally with the mask. Alternatively the connection piece can be formed separately of the mask and can be joined or attached thereto.
The piece can be formed integrally with the conduit. Alternatively the connection piece can be formed separate from the conduit and can be joined or attached thereto.
The connection piece can be formed so that the outlet lies at any appropriate angle to the inlet. Preferably said outlet lies at an angle to the inlet which angle is in the range of 90° to 180°. The connection piece can be a 90° elbow.
The connection piece can include attachment structure to attach the connection piece to the mask. The attachment structure can include at least one snap-in undercut to engage a mating.
The attachment structure can releasably attach the connection piece to the mask.
The attachment structure can include moveable portions on which said snap-in undercuts are formed, the moveable portions allowing said undercuts to disengage the flange.
The attachment structure can allow rotation of said connection piece relative to said mask.
The connection piece can include a Luer port through the passage wall, which can be on a side and/or the front of said connection piece.
The vent wall can lay at an oblique angle to the air flow. The angle is preferably in the range of 25° to 155°.
The connection piece can include on its external surface a recess having wall portions extending away from an external side of said vent wall. The wall portions can diverge in a direction away from said vent wall.
In yet another embodiment, a mask for treating sleep disordered breathing includes a shell/cushion with an inner and outer surface, a flange extending away from the outer surface and surrounding the shell/cushion, the mask having an exoskeletal frame having a shape which substantially matches the contours of the flange so that it can be positioned adjacent the flange when the shell/cushion is in a shape suitable for use by a patient, and structure to hold said flange to the frame.
The structure to hold the flange to the frame can include one or more apertures through the flange.
Rivets or other fixers can pass through said apertures to hold the flange adjacent the frame.
The frame can be attached to headgear to position the mask onto a patient's head.
The frame can include connection members connected to the frame for cooperating therewith to sandwich the flange between said connection members and the frame. The connection members can be hinged to the frame, or connected to the frame by a flexible member.
A second frame of a shape which substantially matches the contours of the flange can be present, whereby said flange is sandwiched between the first frame and the second frame.
The second frame, the flange and the first ring member can be held together by rivets and/or fixers, etc.
The second frame can include rivets extending therefrom, which can pass through the flange and the first frame. Alternatively the first frame can include rivets extending therefrom, which can pass through the flange and the second frame. Another alternative is for the flange to include a first set of rivets extending in a forward direction and a second set of rivets extending in a rearward direction, the first set of rivets being received in apertures through the first frame, the second set of rivets being received in apertures through the second frame.
The rivets can be deformable at their free end, or the aperture into which they protrude can be deformable.
The rivets can include an undercut so that the undercut can pass through the apertures to hold components together.
Another embodiment of the invention provides a mask system including head gear and mask as described above. This mask system can include a connection piece as described above.
These another aspects will be described in or apparent from the following detailed description of preferred embodiments.
Embodiments of the present invention will now be described by way of example only, with reference to the accompanying Figures, in which:
In various forms the embodiments provides a comfortable low cost mask system which has few components and for example, has a single walled cushion. In a preferred form it does not include a forehead support, nor headgear clips, but it will be readily understood that these can be included if desired.
The embodiments include a mask system which provides a patient interface having a range of interchangeable sub-components as part of a device for delivering a supply of air at positive pressure to the airways of a patient in the treatment of sleep disordered breathing. The mask system includes headgear and a mask assembly (see
Multiple versions of the mask system are described with respect to the drawings:
Version 1: as depicted in
Version 2: as depicted in
Version 3: depicted in
Version 4; depicted in
Version 5: is not illustrated per se, but is a single use or disposable unit with a three point two piece frame;
Version 6: is not illustrated per se, but is a reusable unit with components which disassemble for cleaning with a three point two piece frame;
Version 7: is a single or disposable unit, such as in versions 3 or 5 with an elbow or connection piece as depicted in
Version 8: is a reusable unit, such as in versions 1, 3, 5 with an elbow or connection piece as depicted in
Version 9: is not illustrated per se, but is a reusable or single use unit of any of the previous eight versions, with a shell/cushion as depicted in
The embodiments also include four versions of elbows or connection pieces for connecting a mask to a conduit, whereby the connection piece completes the mask:
Version A: is a reusable disconnectable elbow as depicted in
Version B: is a single use elbow which once assembled to a mask cannot be disassembled therefrom and is as depicted in
Version C: is a reusable disconnectable elbow as depicted in
Version D: is a single use elbow which once assembled to a mask cannot be disassembled therefrom and is as depicted in
The embodiments further include five versions of frames, which connect to the shell/cushions and the headgear to position the mask assemblies on a patient:
Version (i): a single piece three point frame receivable in a channel in a shell/cushion as depicted in
Version (ii): a single piece five point frame receivable in a channel in a shell/cushion as depicted in
Version (iii): a two piece three point frame as depicted in
Version (iv): which is not illustrated, but us a two piece five point frame, which will sandwich a flange on a shell/cushion to provide the shell/cushion with an exoskeletal support structure. This version will be similar to Version (iii) as depicted in
Version (v): which is not illustrated, where the frame is a single piece and rivets to a flange on the shell/cushion.
The embodiments further include eight versions of shell/cushions:
Version I: being as depicted in
Version II: being as depicted in
Version III: being as depicted in
Version IV: being as depicted in
Version V: being as depicted in
Version VI: being as depicted in
Version VII: is not illustrated but is similar to the shell/cushion of
Version VIII: is not illustrated but is similar to the shell/cushion of
As illustrated in
The headgear 20, as illustrated in
Table 1 shows exemplary dimensions of each of the straps 20.1, 20.2 and 20.3.
Button holes (3-5 mm) are placed in the middle along the entire length of the straps with gaps between two button holes of approximately 3.5-6.5 mm. The straps 20.1, 20.2 and 20.3 are each 20 mm wide and constructed from a knitted 70% polyester and 30% non-latex elastomer which is white and biocompatible. The elasticity of the preferred material is 49+−20 Newtons per metre Nm-1. The above dimensions and materials are exemplary only.
Ordinarily headgear can represent a significant cost in the manufacture of a mask system. Thus, by manufacturing the headgear 20 from this particular low cost material can lead to a significant cost saving for the headgear and the mask system as a whole.
The headgear 20 described above is preferably used for a single use and then disposed of. However, to make the headgear in a reusable form, the headgear can be moulded in a number of parts and joined together with buttons or similar. Alternatively reusable headgear can be moulded in one piece.
Illustrated in
The sealing structure 30.5 has a face contacting side 30.51 adapted to form a seal on a patient's face. The face contacting side 30.51 includes a nasal bridge region 30.6, side regions 30.7 and a lip region 30.8. As can be seen from the figures the lip region 30.8 has a series of four vent orifices 30.9 passing therethrough. The face contacting side 30.51 is similar in shape to the face contacting side of the mask known by the trade mark PAPILLION (manufactured by MAP GmbH) or the mask known by the trade mark MIRAGE (manufactured by ResMed Limited).
A range of shell/cushion 30 sizes can be provided to suit different sizes of noses. For example, in one form, shell/cushions can have a shallow nasal bridge region 30.6.
The shell/cushion 30 includes a frame-receiving channel 140 defined by a front flange 34 and a rear flange 36. The shell/cushion 30 of
As is visible in
Illustrated in
The shell/cushion 130 includes a series of vents or vent orifices 30.9, which in a preferred form comprises four orifices. The vent orifices 30.9 are formed through a thicker wall section 30.10 formed integrally on the shell/cushion 30. The wall section 30.10 is shown in
As illustrated in
Thus, as can be seen from the shell/cushion 30 and 130, the shell/cushion can be provided with discrete channels or a continuous channel. The channel or channels can, when their length is totaled, be in the range of 75% to 100% of the perimeter of the shell/cushion as in the case of shell/cushion 30 or in the range of 20% to 40% as in the case of shell/cushion 130 of the frame 40. An advantage of the front flange extending 75% to 100% of the way around the perimeter is that it is less likely to be removed by inadvertence. From
The section 522 as illustrated in
Alternatively, if the shell/cushion 130 were to be reusable then the section 522 will be provided with a thicker dimension which would prevent the section 522 tearing at the time of disassembly. The shell/cushion 30, being of a reusable nature, will have a cross section similar to that of
Illustrated in
Illustrated in
The flange 330.1 includes seven apertures 330.2 and 330.3 therethrough. The four apertures 330.2 are of an approximate diameter of 5.75 mm while the three apertures 330.3 are of an approximate diameter of 3 mm. The apertures 330.2 and 330.3 receive therethrough rivets formed on one piece of the two piece frame as will be described below. As the rivets which pass through the apertures 330.2 have a barbed head which is of a larger diameter than the shank the apertures 330.2 are of a larger diameter to accommodate this large diameter barb.
While
As can be seen from
Illustrated in
The shell/cushion 330 is specifically for one time hospital use. As can be seen form.
To provide some additional rigidity whilst at the same time keeping the material used to a optimum level, there is provided on the shell/cushion 330 a series of four radially extending reinforcing ribs 330.4 which extend away from a generally circular reinforcing ring 330.6 which surrounds the region 30.31 and aperture 30.3. The ribs 330.4 and 330.6 are formed integrally in the shell/cushion 330, but are of a greater thickness of material than the regions 330.5. The ribs 330.4 and 330.6 are approximately 2 to 3 mm in thickness while the regions 330.5 are approximately 1 to 1.5 mm in thickness. This arrangement helps to provide better aesthetic quality while also providing greater structural support where required, but a softer feel at the seal locations.
As is illustrated in
The frame 40 is of a generally triangular shape with rounded apexes, and has a base approximately 90 mm wide and a height of approximately 84 mm. Other exemplary dimensions are as indicated in the
The frame 40 can be made to any suitable configuration of anchor points 132 so as to provide a variety of fittings to suit the particular needs of individual uses. In this regard, the placement of anchor points 132 can be changed in a manner described in the published PCT patent application WO 02/45784, the contents of which are hereby incorporated by cross reference. In this way the adaptability of the mask system 1 is enhanced as the mask frame 40 is relatively inexpensive to manufacture.
Each anchor point 132 is formed from a frame member 132.2 which surrounds an aperture 40.1, 40.2 or 40.3. The apertures 40.1, 40.2 and 40.3 allows the ends of the straps 20.1 and 20.2 to be threaded therethrough.
On a middle portion of the frame member 132.2 is a mushroom headed spigot 132.1, which can be threaded though one of the button holes 20.4 on the respective ends of the straps 20.1 and 20.2. In alternative embodiments the spigot may be replaced by other methods of retention such as hooks.
If desired the user need not thread through the apertures 40.1, 40.2 or 40.3, and instead attach directly onto the mushroom headed spigots 132.1, however, there is less likelihood of inadvertent disconnection when in use if the ends of straps 20.1 and 20.2 are threaded through the respective apertures 40.1, 40.2 or 40.3 as all movement of the ends of the straps 20.1 and 20.2 will not tend to try to pull the button holes 20.4 over the mushroom headed spigots 132.1.
The frame 40 has rearwardly projecting ribs 40.7, in the vicinity of the two lower anchor point 132, near to the base of the frame 40. The ribs 40.7 are sized and shaped so as to be received into the elongated recesses 30.75 on the shell/cushions 30 and 130.
The frame 40 provides an indent 40.4 which also extends away from the face of the patient as is illustrated in
As is illustrated in
The upper anchor point 132 includes a three sided frame member 132.2, and on each side of the frame member 132.2 is located, at a generally central location a mushroom headed spigot 132.1.
The frame 140 can thus be used with the headgear 20 described above which provides three ends of straps 20.1 and 20.2, or it can be used with a modified form of headgear (not illustrated) with five straps.
As an alternative (not illustrated), the frame 140 may also provide four anchor points 132 and be used with a modified form of headgear (not illustrated) with four straps.
Preferably each of three straps that can be used with the upper anchor point 132 will be threaded through the aperture 40.2, whereby the straight sided nature of the three sides will interact with a respective mushroom headed spigot 132.1 to firmly secure the ends of the straps thereto.
Illustrated in
Illustrated
The pieces 240 and 340 are of similar overall shape to the frames 40 and 140, and like parts are like numbered.
The piece 240 receives and secures the piece 340 therein, by means of four large diameter apertures 240.1, which as can be seen most clearly from
The apertures 240.1 receive rivets 340.1 on the piece 340. As can be seen from
The piece 240 includes three blind holes 240.6 into which will be received respective straight sided spigots 340.7. In alternative embodiments there may be differing numbers of blind holes and respective straight sided spigots, for example a number of blind holes and respective spigots between one and seven.
Illustrated in
To assemble the rivet 440.1, the frame 440 is placed adjacent the flange 330.1 of the shell/cushion 330, then the rivet 440.1 is moved into position against the rear face of the flange 330.1 and pushed home so that the bearing surface 440.4 can sandwich or compress the flange 330.1 to the rear face of the frame 440.
For the sake of illustration the aperture 240.1 near the bottom of the frame 440 has a different rivet structure associated with it. The rivet 440.2 has relatively thin panel 440.7 which extend away from the frame 440. A second panel 440.8 is hinged by a hinge 440.9 to the panel 440.7. Extending away from the panel 440.8 is a rivet shaft 440.5 which terminates in a mushroom head 440.6, in much the same way as the rivet 440.1.
The distance between the hinge 440.9 and the frame 440 (the height of the panel 440.7) can be sized to provide either a loose or snug fit around the flange 330.1, or if desired sized to provide as much compression of the flange 330.1 as possible. By positioning the flange 330.1 adjacent the aperture 240.1 and folding the panel 440.8 over so that the head 440.6 of the rivet is pushed home into the aperture 240.1, the rivet 440.2 will hold the flange 330.1 in place relative to the frame 440.
The frame 40, the pieces 240 and 340, and the frame 440 can be moulded from any appropriate material such as polycarbonate.
As is illustrated in
A proximal end 50.1 of the elbow 50 is adapted to engage with both a shell/cushion 30, 130, 230, 330 and a retaining ring 60 positioned within the aperture 30.3 of the shell/cushion. Two, circumferentially equi-spaced or diametrically opposed, tongues 50.3 extend away from the body of the elbow 50 near to the proximal end 50.1. Each tongue 50.3 has an arcuate undercut 50.2 which is located on an inwardly facing surface 50.4 of the tongue 50.3. The undercuts 50.2 engage with the retaining ring 60. Each finger 50.3 is located at diametrically opposite locations on the elbow 50, and are located on either side of the elbow 50 at the proximal end 50.1 thereof.
At the ends of the tongues 50.3 there are included finger grips 54. The finger grips 54 enable a user to pull the tongues 50.3 in a radially outward direction relative to the proximal end 50.1, thereby permitting the undercuts 50.2 to clear the rim of retaining ring 60. This then allows the elbow 50 to be disassembled from the mask assembly 10, whereby it can be removed for cleaning. Located near to the finger grips are two undercuts to removably engage with the retaining ring.
The inside surfaces of the finger grips 54 include a tapered entry way 50.7, whereby when the proximal end 50.1 is pushed into contact with a rim of the retaining ring, the finger grips 54, and thus the undercuts 50.2 are pushed away from the rim of the retaining ring 60, thereby allowing the undercuts to push past the rim, and biased radially inwardly back into engagement, preventing the separation of the proximal end 50.1 from the retaining ring 60.
An exemplary shape and dimensions of the elbow 50 are indicated in the
Illustrated in
The undercuts 50.2 are formed adjacent the apertures 50.11 through the skirt 50.6. The apertures 50.11 are formed by that portion of the mould which forms the undercut 50.2, preventing molten plastic occupying that space. If desired more or less discrete undercuts 50.2 can be provided.
The inside surfaces of the skirt 50.6 include a tapered entry way 50.7, whereby when the proximal end 50.1 is pushed into contact with a rim of a retaining ring 60, the skirt 50.6, and thus the undercuts 50.2 are pushed away from the rim of the retaining ring 60, thereby allowing the undercuts 50.2 to push past the rim. The construction of the skirt 50.6 provides a radially inward bias forcing the undercut 50.2 back into engagement once past the rim, thereby preventing the separation of the proximal end 50.1 from the retaining ring 60.
The elbow can be moulded from any appropriate material such as polycarbonate or polypropylene.
The elbows 50 and 150 each include a port 56, such as Luer port, to enable access to the interior of the mask shell/cushion. For example, a pressure sensor may be attached. A polypropylene or silicone cap can be used to cover and seal the port when not in use.
The elbows 50 and 150 can be sized so as to freely rotated when mounted on the mask assembly 10. However, it is preferable that they are not able to freely rotate. Thus while rotation is allowed, when mounted onto a mask assembly 10, the inter-engagement of the components provides as a braking system. This means that, while adjustable, it tends to remain in the position in which it has been set. This is achieved through the combination of sizes shown and the use of one material on the elbow 50 and a different material on the shell/cushion with which it engages. This can be achieved through a slightly interfering fit between the ends of the undercuts 50.2 on the elbow 50 and shell/cushion 30, 130, 230, 330.
Preferably a suitable combination of materials and component configurations are selected so as to allow the user by hand to easily rotate the elbow to any desired position and once positioned, the elbow 50 or 150 will not move when experiencing the forces which are applied when the mask is attached to the gas conduit and it is in use by a sleeping patient. This allows the user to position the elbow 50 or 150 and thereby the gas conduit relative to the mask and face according to personal preference.
The elbows 50 and 150 and frame 40 are not directly connected, since their contact is through the shell/cushion 30, 130, 230, 330. Since the shell/cushion is constructed from a flexible material, movement of an air delivery conduit attached to the swivel elbow does not directly disrupt the seal of the shell/cushion. In this way, decoupling of drag forces from the air delivery conduit can be achieved.
Illustrated in
The second feature of difference is that the elbow 250, as best seen in the cross section of
In the vent wall 250.4 is a series of four vent orifices 250.6, which are seen in more detail in cross section of
Extending away from the vent wall 250.4 is a divergent housing 250.7. By being divergent, any exhaled gases passing through the vent orifices 250.6 will be readily dispersed.
Illustrated in
The elbow 350, being used to produce a mask assembly predominantly for single use and hospital use, includes a side located and directed Luer port 56. The side mounted Luer port 56 is particularly helpful for the situation where a tube is connected for monitoring purposes. This tube, by being mounted onto the Luer port 56 of the elbow 350, which if it is free to swivel, will mean that there need be no relative twisting of the monitoring tube relative to the supply conduit. This could not happen if the Luer port 56 were on the shell/cushion.
While the connection pieces or elbows 250 and 350 only have a 90° angle between the inlet at the distal end 52 and the outlet at the proximal end 50.1, it will be readily understood that the connection piece can be constructed with the vent wall 250.4, vent orifices 250.6, and divergent housing 250.7 with any appropriate angle between the inlet at the distal end 52 and the outlet at the proximal end 50.1. This angle can be 180°, whereby an in-line or union connection piece can be produced.
A retaining ring 60 for use with the mask assembly 10 is show in
The ring 60 has an outer diameter of approximately 33 mm and a thickness of 9 mm. Other exemplary dimensions are shown in
Illustrated in the cross sectional views of
The front flange 64 provides a square rear surface 65 which forms the front wall of the groove 67. Further the rim 68 of the front flange 64 is bevelled or tapered so that when it enters the tapered entry way on the elbow 50, it will force the undercuts 50.2 to pass thereover.
It will be noted that the rear flange 66 is symmetrical in shape, while the front flange 64 is not. Further the rear flange 66 is set back from the rear end of the cylinder 62, whereby a cylindrical portion 69 protrudes axially rearwardly away from the rear face of the rear flange 66.
Illustrated in
As can be seen from the cross section of
The shape of the groove 524 on the shell/cushion to receive the flange 64 of ring 160 is preferably of a complementary shape to allow the ring 160 to provide support.
Assembly of Version 1 of a mask system described in chapter §1 above, will now be described with reference to
A frame 40 is pushed into position on the shell/cushion 30 from the front of the shell/cushion 30 and is inserted and engages with the channel 140 on the shell/cushion 30. The retaining ring 60 is adapted to engage with a channel 250 on the shell/cushion 30. The process is similar for the first embodiment.
Illustrated in the cross sectional views of
The undercut 50.2 on the elbow 50 is adapted to engage with the rear surface 65 of the front flange 64, thus retaining the elbow 50.
When the proximal end 50.1 passes though the retaining ring 60, seal is formed between a flange or flap 526 on the shell/cushion 30 and the proximal end 32 of the elbow 50. In this way, a leak proof seal, which allows rotation of the elbow 50 relative to the shell/cushion 30 is formed, since the flange or flap 526 extends over the proximal end of the elbow in an annular fashion. This results in a conformable seal between the shell/cushion and elbow.
Assembly of Version 7 of a mask system described in the §1 Introduction above, will now be described with reference to
Assembly of Version 7 is very similar to that of version 1 described above, except that instead of a single piece frame 40 a two piece frame, made up of pieces 240 and 340 is used, and instead of a shell/cushion 30 with a channel 140 being used a shell/cushion 330 with a peripheral flange 330.1 is used. The assembly of (a) the frame to the shell/cushion; and (b) the retaining ring and elbow to the shell/cushion; can be done in any order.
To assemble the frame, a manufacturer will align the rivets 340.1 and spigots 340.7 with the respective holes 330.3 and 330.2, and pass the rivets and spigots through these holes in a rearward to forward direction, starting at the rear of the shell/cushion 330. Once the rivets have been received through the holes 330.2 and the rest of the flange 330.1 is sitting adjacent to front facing surfaces of the piece 340, then the piece 240 is aligned so that the apertures 240.1 align with the rivets 340.1, whereby exerting a compressive force on the two pieces 240 and 340 will force the tapered mushroom heads of the rivets 340.1 to pass through the constricted aperture of the apertures 240.1. By appropriately sizing the rivets 340.1 and the apertures 240.1, it may be necessary to compress the flange 330.1 whereby the pieces 240 and 340 will keep the flange 330.1 compressed therebetween once the mushroom head of the rivets are locked into the apertures 240.1. Alternatively, as illustrated in
When the rivets 340.1 are locked into the apertures 240.1, the spigots 340.7 pass through the holes 330.3. The three spigots 340.7 prevent the flange 330.1 from extricating itself from the sandwich formed by the clamping of pieces 240 and 340.
The assembly of the retaining ring 160 and the elbow 350 onto the aperture 30.3 of the shell/cushion 330 is the same procedure as described above in respect of version 1. As illustrated in
Described above is a feature of single use mask assemblies where the shell/cushion 30, 130, 230, 330 has a reduced thickness portion to provide a tear point. A single use version is able to be manufactured without such a line of weakness or tear point. Such a single use version, when a single use elbow is used, such as elbows 150 or 350 described above, will allow the shell/cushion 30, 130, 230, 330 (without any reduced thicknesses or tearing points) to separate from the assembled retaining ring 60 or 160 and the elbow 150, or 350, while the elbow 150 or 350 retains the retaining ring 60 or 160 captured thereon. In this way, such a mask assembly will not be able to be reassembled due to the inability to extract or disconnect the retaining ring 60 or 160 from the elbow 150 or 350.
Although the invention has been described with reference to preferred embodiments, it is to be understood that these embodiments are merely illustrative of the application of the principles of the invention. Numerous modifications may be made therein and other arrangements may be devised without departing from the spirit and scope of the invention.
It will be understood that the invention disclosed and defined herein extends to all alternative combinations of two or more of the individual features mentioned or evident from the text. All of these different combinations constitute various alternative aspects of the invention.
Number | Date | Country | Kind |
---|---|---|---|
AU 2003902098 | May 2003 | AU | national |
AU 2004901648 | Mar 2004 | AU | national |
Number | Date | Country | |
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Parent | 10555301 | Feb 2006 | US |
Child | 12654595 | US |