Source: https://patents.google.com/patent/CN107261287A/en
Timestamp: 2020-01-23 10:22:21
Document Index: 564296897

Matched Legal Cases: ['Application No. 201280067153', 'art 3102', 'art 270', 'art 3100', 'art 3100', 'arts 457', 'art 117', 'art 110', 'art 3510', 'art 3510', 'art 158', 'art 150', 'art 129', 'art 129', 'art 129', 'art 120', 'art 117', 'art 117', 'art 129', 'art 457', 'art 3510']

CN107261287A - Nose cup system - Google Patents
Nose cup system Download PDF
CN107261287A
CN107261287A CN201710525429.6A CN201710525429A CN107261287A CN 107261287 A CN107261287 A CN 107261287A CN 201710525429 A CN201710525429 A CN 201710525429A CN 107261287 A CN107261287 A CN 107261287A
CN201710525429.6A
2012-11-15 Priority to CN201280067153.7A priority patent/CN104053469B/en
2017-10-20 Publication of CN107261287A publication Critical patent/CN107261287A/en
210000001331 Nose Anatomy 0 abstract 4
210000000537 Nasal Bone Anatomy 0 abstract 1
A kind of mask system, it includes the pad for mask, its be sealed in generally nose or the top of pn nasal region upper extent, and across patient's nose a part of cartilage skeleton, the wing of nose or nostril extend, for example not across or across patient's nose nasal bone extension.
Nose cup system
It is November 15, Application No. 201280067153.7, entitled " nose cup in 2012 applying date that the application, which is, The divisional application of the application of system ".
The Australian provisional application No.AU2011904754 submitted this application claims on November 15th, 2011 rights and interests, Entire contents are incorporated herein by reference.
Statement on government-funded research or development
It is inapplicable
The title of each side of joint study exploitation
This technology is related to the treatment of respiratory disorder, and for preventing the program of respiratory disorder.Especially, this technology is related to Medical Devices and they be used for treat respiratory disorder and the purposes for preventing respiratory disorder.More specifically, this technology It is related to for being hindered by lasting air flue healthy tendency pressure (CPAP) or non-invasive positive pressure ventilation (NIPPV) treatment such as sleep-respiratory Hinder the nose cup system of (SDB).
The respiratory system of body contributes to gas exchanges.The entrance of patient airway is arrived in nose and mouth formation.
Air flue includes a series of branch pipes, and when branch pipe more gos deep into lung, branch pipe becomes narrower, shorter and quantity is huger Greatly.The major function of lung is gas exchanges, it is allowed to oxygen from air be moved to venous blood in and allow carbon dioxide Removed from venous blood.Tracheae is divided into right principal bronchus and left principal bronchus, and right principal bronchus and left principal bronchus finally enter One step is divided into bronchioli terminales.Bronchus constitutes the air flue of conducting, and is not involved in gas exchanges.The branch of air flue is further Lead to alveolar bronchiole, and eventually arrive at bubble.The bubble area of lung is the place that gas exchanges occur, and is claimed For breathing area.Referring to west, Respiratory physiology main points.
The scope that respiratory disorder is present.
Obstructive sleep apnea (OSA) is a kind of sleep disordered breathing (SDB) form, and it is with upper during sleep The occlusion of air duct is characterized.OSA is the area of tongue, soft palate and deutostoma pharynx wall by abnormal small epithelium healing and during sleeping Caused by the combination of the normal missing of Coordinating Muscle in domain.The situation causes impacted patient sometimes every night 200 to 300 It is secondary to be ceased breathing during the cycle that duration is usually 30 to 120 seconds.This typically results in excessive daydream, and this may lead Cause cardiovascular disease and brain damage.Although impacted people may not realize that the problem, over fat man especially in The syndrome is common obstacle in property.See United States Patent (USP) 4,944,310 (Sullivan).
Cheyne-stokes respiration (CSR) is the obstacle of the breath controller of patient, there is enhancing ventilation and the ventilation that dies down in CSR During rhythmic alternating, cause the deoxidation of the repetition of arterial blood and reoxidize.Due to the hypoxgia that this is repeated, CSR may It is harmful.In some patients, CSR is related to the awakening repeated from sleep, and the awakening of the repetition causes multiple interruptions of sleep, Increase sympathetic nerve activity and increase afterload.See United States Patent (USP) 6,532,959 (Berthon-Jones).
Fat hyperventilation syndrome (OHS) is defined as tight in the case of other known causes of no hyperventilation The fat combination with chronic hypercapnia of awakening of weight.Symptom includes expiratory dyspnea, morning headache and excessive daytime sleepiness.
COPD (COPD) includes any one in the lower airway disease group with particular common characteristics. These diseases include lacking the normal elasticity of the increase of air moving resistance, breathing stage extension venting one's pent-up feelings and lung.COPD reality Example is pulmonary emphysema and chronic bronchitis.COPD is by chronic cigarette smoking (Major Risk Factors), occupational exposure, air pollution and something lost Caused by biography factor.Symptom includes：Motion expiratory dyspnea, chronic cough and sputum are produced.
Neuromuscular disease (NMD) is broader term, it include directly via inherent Muscular pathology or indirectly via Many diseases of europathology muscle injury function and imbalance.Some NMD patients are characterised by that progressive muscle is damaged, and this is gradually The property entered muscle damage causes locomotivity forfeiture, is tied to wheelchair, dysphagia, breathing muscle wealmess and ultimately succumbs to exhale Inhale exhaustion.Neuromuscular failure can be divided into quick progressive and progressive at a slow speed：(i) quick progressive obstacle：Its feature exists In weaken month by month and cause muscle damage dead in the several years (such as ALS (ALS) in teenager and Duchenne's progressive muscular dystrophy (DMD))；(ii) variable progressive sexual dysfunction or at a slow speed progressive sexual dysfunction：It is characterized in that weakening year by year And only moderate reduces the muscle damage (for example, limb girdle, face shoulder arm and steirert-Batten-Gibb syndrome) of average life span.In NMD Breathing decay symptom include：It is having difficulty in breathing when enhanced general weakness, dysphagia, motion and rest, tired, thermophilic Sleep, morning headache and absent minded and emotional change.
Wall of the chest obstacle is to cause to breathe the thoracocyllosis group of the combination deficiency between muscle and thorax.The feature of the obstacle is led to Often it is restricted defect and the possibility with long-term hypercapnic respiratory failure.On rear side of scoliosis and/or backbone It is convex to cause serious respiratory failure.The symptom of respiratory failure includes：Exertion dyspnea, peripheral edema, sit up straight and exhale Inhale, repeated chest infection, morning headache, fatigue, poor sleeping quality and without appetite.
In addition, the individual of health can prevent respiratory disorder using the system and equipment.
A kind of known product for being used to treat sleep disordered breathing is the S9 physiological sleep therapy systems manufactured by ResMed.
6.2.2 therapy
Nose continuous positive airway (CPAP) therapy has been used to treatment obstructive sleep apnea (OSA).Before Carry be continuous positive airway as pneumatic splint, and can be by promoting soft palate and tongue forward and away from deutostoma pharynx wall To prevent epithelium healing occlusion.
Nicht-invasive Beatmung (NIV) has been used to treatment OHS, COPD, MD and wall of the chest obstacle.
6.2.3 patient interface
For example, as patient sleeps, promoting by using such as nose cup, foil facial mask or the patient interface of nasal pillow by just The air supply of pressure is applied to the entrance of patient airway.
Known patient interface device especially when long-time is worn or when patient is unfamiliar with to system by obvious, no It is attractive in appearance, work poor, be difficult with and one or more of uncomfortable.
6.2.3.1 sealing forms part
Patient interface generally includes sealing and forms part.
Disclosed in patent application below transfer ResMedLimited (Rui Simai Co., Ltds) patient interface it is close Envelope forms the scope of portion of techniques：WO1998/004,310；WO2006/074,513；WO2010/135,785.
6.2.3.2 positioning and stably
Sealing for the patient interface of air positive pressure therapy forms part and is destroyed sealedly corresponding by air pressure Power.Therefore, various technologies have been used for location sealing formation part and for maintaining sealing to form part and the appropriate portion of face The sealing relationship of position.
A kind of technology is to use adhesive.See such as U.S. Patent application US2010/0000534.
Another technology is to use one or more bands and stability series band.
6.2.3.3 ventilate vocal imitation skill
Some form of patient interface systems include blow vent to allow the carbon dioxide discharge of exhalation.
ResMed Co., Ltds have developed a large amount of improved mask ventilation vocal imitation skills.See WO1998/034,665, WO2000/078,381, US6,581,594, U.S. Patent application, US2009/0050156 and U.S. Patent application 2009/ 0044808。
This technology is related to the Medical Devices for providing and being used for diagnosing, treat or prevent respiratory disorder, and the Medical Devices have Improved comfort level, cost, effect, use one or more of easness and manufacturability.
The first aspect of this technology is related to the device used in the diagnosis, treatment or prevention of respiratory disorder.
The another aspect of this technology is related to the method used in the diagnosis, treatment or prevention of respiratory disorder.
This technology is a kind of patient interface on one side, its have it is comfortable, effective, easy to use, unobtrusively and have There is one or more of wide use scope.
A form of aspect of this technology is patient interface, which obviates the jeting effect of nasal pillow or nose fork, and/or is kept away Exempt to make a part of mask be positioned at the uncomfortable sensation in the nasal cavity of patient.
A form of aspect of this technology is nose cup, and it is easily worn, and can avoid the need for headband in use Band is disturbed or across ear, and can avoid when adorning oneself with or removing disturbing or across ear.
A form of other side of this technology is the method for wearing or removing mask.
There is provided small-sized, the inconspicuous nose cup of one kind in a kind of form of this technology.
In a kind of form of this technology sealed nose cup is not formed there is provided a kind of on the lower lip or lower jaw of patient.
There is provided a kind of patient interface for applying rearward force not on lower jaw in a kind of form of this technology, for example, suffering from Person's interface does not promote lower jaw from front towards rear.
Do not include the patient interface of stiff case or rigid frame there is provided a kind of in a kind of form of this technology.
There is provided a kind of patient interface including pumping chamber in a kind of form of this technology, the pumping chamber is by for example The flexible rubber of suitable thickness is (for example, with the A type hardness testers in about 35 to about 45 scope, and about 1.5mm to about 3mm The silica gel of thickness) flexibility or semi-rigid material construction form.
There is provided a kind of nose cup in a kind of form of this technology, the nose cup need not be engaged with fixture or disconnect with Wear or remove mask.
A form of aspect of this technology is to include the patient interface that sealing forms part, and sealing, which forms part, has structure The first sealing area for little or no resistance to compression is made, and is configured to resist compression stress (for example, due to head substantially With tensioning) the second sealing area.In example in use, the first sealing area is arranged as covering a part of cartilage of nose Skeleton, and the second sealing area is arranged as a part of bone region of covering face.In instances, facial bone region is proximate to The wing and optionally close to the region on wing summit.
According to a kind of form of this technology there is provided a kind of patient interface, it includes：(i) sealing forms part, and it makes With a part of cartilage skeleton of at least a portion upper lip area of middle covering patient facial region, and covering nose；And (ii) is close Envelope positioning and rock-steady structure, can be worn and be removed in the case where not disturbing the ear of patient.
A form of other side of this technology is a kind of patient interface, and it has the sealing related to 2 points of connections Form part and sealing positioning and rock-steady structure.In instances, patient interface does not include forehead support.Alternatively or additionally In example, sealing positioning includes non-rigid or curved connector element with rock-steady structure.
A form of other side of this technology is a kind of patient interface, and it moulds or be otherwise configured to tool There is the peripheral shape for the clear restriction for being intended to be matched in use with target wearer.
A form of other side of this technology is a kind of patient interface, and it constructs and is arranged so that when in nose When forming sealing at least a portion cartilage skeleton in portion, it is to avoid or reduce trend of the limitation by nasal air stream therein.
According to a kind of form of this technology there is provided a kind of patient interface, it includes one of covering nose in use Divide the first top sealed portion of cartilage skeleton, and cover the second sealing portion point of a part of upper lip, and its in use In, in use, compared with the headband sealing force towards the cartilage skeleton of nose, relatively large fraction of headband sealing force direction Maxilla, tooth or the gum of part upper lip and bottom.
A form of other side of this technology is patient interface, and it constructs and is arranged as avoiding or reduces Apply the trend of unnecessary pressure on nasal septum.
According to a kind of form of this technology there is provided a kind of patient interface, it is in use in a part of upper lip of patient It is upper to form sealing, and the patient interface includes the pumping chamber with wall, and wherein, be configured to be positioned at increasing in use The Part I of wall near pressure chamber has relatively smaller rigid elastic constant than the part of the wall close to the Part I.
A form of other side of this technology is patient interface, when the patient interface is in a part of soft of nose While forming sealing on bone skeleton, provided on the region of the nose near meet between greater alar cartilage and lateral cartilages Effective or improved sealing.
According to a kind of form of this technology there is provided a kind of patient interface, the patient interface is generally t shaped including defining Or three valve apertures sealing flange.In instances, sealing flange includes barrier film and along in every side of nasal region The sealing sheet that its inner circumference is protruded from the edge of barrier film.The edge along its inner circumference of barrier film is together with each sealing sheet Coordinate to be limited to the aperture in pumping chamber together along the edge of its inner circumference.In instances, this aperture includes generally T-shaped Or three valve apertures, it include bore portions (as shown in Fig. 3-20 along vertical axes v) and be generally transverse to upper hole Oral area point extension lower bore portions (as shown in Fig. 3-20 along trunnion axis h).
According to a kind of form of this technology, the inward flange of sealing flange is in use for example relative in sealing flange Between facial spring from part biases to wearer.
A form of other side of this technology is a kind of nose cup, and it constructs and is arranged as in regulation headband tensioning When around upper lip area pivot or rotate.
A form of other side of this technology is the method for manufacturing patient interface.
A form of other side of this technology be it is a kind of be used to preventing, treat or improve OSA, CSA, OHS, One or more of COPD, NMD and the wall of the chest obstacle equipment.
This technology is a kind of mask system on the other hand, and it is adapted to include with Roman nose region and low nose The different face shapes of beam region and leptorrhiny portion and the wide scope of wide nose.This technology is to have wide adaptation on the other hand The mask system of scope.
A form of other side of this technology is a kind of mask system, and the mask system is small-sized and less Obvious, and be also stabilized in as patient sleeps on face.
This technology is a kind of mask system on one side, its construct and be arranged as being sealed in substantially in pn or Upper extent on the region of the nose of nose above or over.
A form of one side of this technology is a kind of mask, and it is constructed and arranged to be sealed in substantially in nasal bone Upper extent at upper and lower or following position.
There is provided a kind of mask in a kind of form of this technology, it constructs and is arranged as forming part with sealing, The sealing forms part and covers a part of upper lip or lip above, and the covering nose for example in the case where not covering nasal bone A part of cartilage skeleton.
There is provided a kind of mask in a kind of form of this technology, it constructs and is arranged as having in a covering part First sealing of lip or lip above forms part, and the cartilage skeleton of covering nose for example in the case where not covering nasal bone Second sealing forms part.
There is provided a kind of mask in a kind of form of this technology, it constructs and is arranged as having basic in use Upper compression is formed part, and the second sealing forming portion being substantially tensioned in use by the first sealing of bending force Point.
There is provided a kind of mask in a kind of form of this technology, it constructs and is arranged as having the phase before use Part formed to the rigid first sealing, and part is being formed using preceding soft the second sealing relatively.
A form of other side of this technology is a kind of mask system for having and improving sealing big envelope.In example In, mask system includes face plate, and it includes the relative thin that for example and at least semi-elastic material is formed by flexible material Component.In instances, mask system at least also includes spare tape in some regions.
This technology is a kind of mask on the other hand, its formed, molding or be otherwise configured be intended to The peripheral shape of the clear restriction of target wearer matching.
This technology is a kind of pad for mask on the other hand, and it is sealed in substantially on pn or nose Or the upper extent of the nasal region of top, and the wing of nose across patient's nose or nostril extension.
This technology is a kind of pad for mask on the other hand, and it is sealed in substantially on pn or nose Or the upper extent of the nasal region of top, and the wing of nose across patient's nose or nostril extension, it is not across for example or horizontal Extend across the nasal bone of patient's nose.
A form of one side of this technology is a kind of pad for mask, and it, which is sealed in, is generally proximal to have more It is nosey some bone and cartilage between meet nasal area in upper extent, and avoid influence have compared with The sight of the patient of spur.
There is provided a kind of mask system in a kind of form of this technology, the mask system do not need rigid frame or Skeleton, and it is sealed in the upper extent substantially in the region of pn or the nose of nose above or over.
This technology is a kind of pad for mask on one side, and it includes sealing barrier film at least a portion region And spare tape or subgaskets.
This technology is a kind of pad for nose cup on the other hand, and it includes subgaskets or standby in the region of upper lip With band.
A form of other side of this technology is a kind of pad for nose cup, and it includes bottom in upper lip area Pad or spare tape, and there is no subgaskets or spare tape in nasal side or nasal bridge region, to avoid in nasal side or nasal bridge region On high sealing force relatively because these high sealing forces relatively are likely to result in the occlusion of nasal passage.
The other side of this technology includes a kind of pad for nose cup, and the pad has sealing area, sidewall areas And attachment area, wherein sealing area with patient suitable for forming sealing, and sealing area is connected by sidewall areas with attachment area Together, and attachment area is adapted to or be otherwise affixed to air delivery system.
The other side of this technology includes a kind of pad for nose cup, and the pad has sealing area and attachment regions Domain, wherein attachment area include resolution element.
The other side of this technology includes a kind of pad for nose cup, and the pad has sealing area and attachment regions Domain, wherein attachment area include resolution element, and the resolution element includes relative thin-walled portion.For example, relative thin-walled portion can be with Thinner 50-85%.
The other side of this technology includes a kind of pad for nose cup, and the pad includes and the bodily form of side wall soft elastic one Into headband connector, for example wherein side wall by soft elastic body or rubber construction form.
The other side of this technology includes a kind of pad for nose cup, and the pad includes headband connector, the head Belt connector construct and be arranged as by a part for sealing area be positioned at patient's nose pn or patient's nose it is upper Face or top.
The other side of this technology includes a kind of pad for nose cup, and the pad has nasal bridge region, the bridge of the nose Region has sag or curvature, the bridge of the nose for being for example suitable for meeting patient or the local saddle region complementary with the bridge of the nose of patient.
The other side of this technology includes a kind of pad for nose cup, and the pad has nasal bridge region, when with pad Other regions when comparing, nasal bridge region has relatively long diaphragm length, and relatively long diaphragm length is suitable to and patient's bridge of the nose The larger range of fit engagement of height.
The other side of this technology includes a kind of pad for nose cup, and pad has nasal side region, nasal side region tool There is raised portion, raised portion has bigger height when being compared with nasal bridge region, raised portion is suitable to and patient's nose Engagement sides and ensure to engage with Roman nose and the flat bridge of the nose.
The other side of this technology include a kind of pad for nose cup, the pad have generally with postalifera and Facial zone between wing three quarter is corresponding and the naricorn region including postalifera and wing three quarter, when with the other areas of the whole of pad When domain is compared, naricorn region has maximum height, and pad is anchored on appropriate position by wherein naricorn region.The height in naricorn region Degree may be arranged to ensure the sealing in naricorn, because this is that sealed region is it is particularly difficult on face.
The other side of this technology includes a kind of pad for nose cup, and this pad has upper lip area, upper lip area It is configured to comply with the curvature of patient upper lip area.Upper lip area can be substantial circular, extend and continue from groove or sag Until the side of nasal region.Barrier film in upper lip area can be stretched across the upper lip of patient to ensure to seal the upper of patient Lip.
A kind of nose cup system is related to according to the other side of this technology, it includes spacer assembly and headgear assemblies, described Spacer assembly has the sealing area in the single aperture for providing two nostrils for being suitable to the nose around patient, the headgear assemblies Including a pair of side strips and rear band.The side that side strip fits along patient facial region extends simultaneously between eye and ear And connected with setting the corresponding headband connector to spacer assembly to engage with providing at 2 points to spacer assembly.Band is in side slat afterwards Extend between band and fit along the head of patient below or rear is along the engagement of below occipital bone or lower section.
The other side of this technology is related to a kind of nose cup system, and it includes spacer assembly, and the liner system includes sealing Region, the sealing area has suitable for being sealed in the nasal bridge region of two nares of patient's nose, nasal side region, naricorn Region and upper lip area.Nasal bridge region is fitted along in pn above or over and under the nasal bone region of patient's bridge of the nose Square or following nasal cartilages zone location and sealing.In one form, sealing area includes the whole week around sealing area The diaphragm seal of side extension and the subgaskets being provided only in upper lip and naricorn region.
The other side of this technology is related to a kind of nose cup system including spacer assembly, and spacer assembly includes being suitable to sealing Sealing area in two nares of patient's nose, the attachment area suitable for accommodating winding pipe assembly and in sealing area The sidewall areas extended between attachment area.Sealing area has nasal bridge region, nasal side region, naricorn region and upper lip Region.Sidewall areas is included in the region near the upper lip area of sealing area, and the thickness ratio in the region is close to sealing area The bridge of the nose, nasal side and the corresponding thickness in naricorn region it is small.
The other side of this technology is related to a kind of nose cup system, and it includes spacer assembly, and the spacer assembly includes sealing Region, the sealing area has suitable for being sealed in the nasal bridge region of two nares of patient's nose, nasal side region, naricorn Region and upper lip area.Converging between greater alar cartilage and nasal lateral cartilage of the nasal side region including fitting along patient's nose Zone location and sealed part near place.
The other side of this technology is related to the entrance for the air supply in direct draught to be applied to patient airway Patient interface.Patient interface includes nose cup and positioning and rock-steady structure.Nose cup, which has, to be constructed and is arranged as the one of patient Sealing is formed on the upper lip of part, and sealedly sealing is formed on a part of cartilage skeleton of the nose of patient and forms part. Nose cup also has the pumping chamber for the part for accommodating the patient's nose for including pn in use.Positioning includes with rock-steady structure A pair of side strips, the pair of side strip provides at 2 points for nose cup and connects and be constructed and arranged in side strip without patient Wear or remove in the case of below ear.
The other side of this technology is related to a kind of method for patient interface to be fitted to patient.The method includes phase The sealing area of patient interface is positioned for patient's nose, to cause sealing area to be centered around two nares and make bar Band makes the headband band of patient interface be engaged with patients head without in the case of below patient ear.
The other side of this technology is related to the nose cup for the entrance for supplying air to be sent to patient passageways.Nose Cover includes top sealed portion and sealing portion point.Top sealed portion constructs and is arranged as being positioned at a part of cartilage bone of nose Sealing is formed on frame and in the case where not applying the sealing force that may limit the air stream for passing through nasal cavity.Sealing portion point structure Make and be arranged as being partially positioned on a part of upper lip of patient and be directed to sealing force a part of upper jaw of patient On bone.
The other side of this technology is related to a kind of nose cup, and it limits respiratory chamber and transmitted so that the gas in malleation is supplied To the air flue of patient.Nose cup includes blow vent and pad.Blow vent be suitable to discharge breathable gas and suitable for it is sufficiently rigid with Avoid collapsing.Pad includes sealing big envelope and headband connector.Sealing big envelope includes diaphragm seal and subgaskets.Diaphragm seal Part extends around the periphery of the pad in the nasal bridge region including pad and the nasal side region of pad, and subgaskets are positioned at In the upper lip area of pad and the nasal bridge region of pad or the nasal side region of pad are not extended to.Headband connector with it is described The side wall of pad is formed together.
The other side of this technology is related to a kind of entrance for being used to being applied to the air supply of direct draught into patient airway Patient interface.Patient interface includes nose cup and positioning and rock-steady structure.There is nose cup sealing to form part, and the sealing is formed Part constructs and is arranged as on a part of upper lip of patient forming sealing, and a part of cartilage bone of the nose in patient Sealing is formed on frame.Nose cup also has the pumping chamber for the part for accommodating the patient's nose for including pn in use.Positioning The sealing vector being angularly oriented relative to Frankfort horizontal direction is provided with rock-steady structure.Positioning includes with rock-steady structure To 2 points of connections of nose cup.
The other side of this technology is related to a kind of entrance for being used to being applied to the air supply of direct draught into patient airway Patient interface.Patient interface includes nose cup and positioning and rock-steady structure.There is nose cup sealing to form part, and the sealing is formed Part constructs and is arranged as on a part of upper lip of patient forming sealing, and a part of cartilage bone of the nose in patient Sealing is formed on frame.Nose cup also has the pumping chamber for the part for accommodating the patient's nose for including pn in use.Positioning The sealing vector being angularly oriented relative to Frankfort horizontal direction is provided with rock-steady structure.Nose cup does not include forehead support Part.
The other side of this technology is related to a kind of entrance for being used to being applied to the air supply of direct draught into patient airway Patient interface.Patient interface includes nose cup and positioning and rock-steady structure.There is nose cup sealing to form part, and the sealing is formed Part constructs and is arranged as on a part of upper lip of patient forming sealing, and a part of cartilage bone of the nose in patient Sealing is formed on frame.Nose cup also has the pumping chamber for the part for accommodating the patient's nose for including pn in use.Positioning The sealing vector being angularly oriented relative to Frankfort horizontal direction is provided with rock-steady structure.Positioning includes with rock-steady structure A pair of side strips suitable for extending towards the patient crown and in patient's overhead.
Certainly, in terms of a part of son that can form this technology in this respect.In addition, many in terms of son and/or in aspect The individual other side or son aspect that can be in many ways combined together and also constitute this technology.
By consider comprising being discussed in more detail below, make a summary, illustrate and claim in information, this technology its Its feature will be apparent.
By way of example rather than the mode of limitation shows this technology, in the figure of accompanying drawing, similar reference Similar element is referred to, including：
8.1 treatment system
Fig. 1 a show the system according to this technology.The patient 1000 for wearing patient interface 3000 is accommodating from PAP equipment 4000 air being under normal pressure supply.Air from PAP equipment 4000 is humidified and edge in humidifier 5000 Air loop 4170 is delivered to patient 1000.Can according to this technology PAP equipment 4000, humidifier 5000 and air loop 4170 To be connected to patient interface 3000.
8.2.1 respiratory system
Fig. 2 a show the overview of human respiratory system, including nasal cavity and oral cavity, larynx, vocal fold, oesophagus, trachea-bronchial epithelial cell, Lung, alveolar sac, heart and diaphragm.
Fig. 2 b show the view of mankind's epithelium healing, including nasal cavity, nasal bone, lateral nasal cartilage, greater alar cartilage, nostril, On lip, under lip, larynx, hard palate, soft palate, oropharynx, tongue, epiglottis, vocal fold, oesophagus and tracheae.
8.2.2 facial dissection
Fig. 2 c be with the facial front view of multiple surface anatomy features recognized, including on lip, upper lip, lower lip, Under lip, wide mouth, intraocular corner of the eyes angle, the wing of nose, nasolabial groove and bicker.
Fig. 2 d are the side views with the head of multiple surface anatomy features recognized, including glabella, the nasion, snout Point, nose bottom point, on lip, under lip, point on chin, the bridge of the nose, on ear, under ear.It is front and rear above-below direction that further indicates.
Fig. 2 e are the further side views on head.Show the apparent position of Frankfort level and nasal labial angle.
Fig. 2 f show the basic views of nose.
Fig. 2 g show the side view of the surface characteristics of nose.
Fig. 2 h show the sub-dermal structures of the nose including cartilage skeleton, cartilage skeleton include lateral cartilages, nasal septal cartilage, Nose cartilago alaris major, small nasal alar cartilage and it also show fibrofatty tissue.
Fig. 2 i show the approximate number milli in other things of the nasal septal cartilage of greater alar cartilage and medial angle are shown Dissection in the middle of the nose of rice sagittal plane.
Fig. 2 j show the front view of skull, including frontal bone, temporal bone, nasal bone and cheekbone.Concha with maxilla, mandibular and Mental protuberance is shown.
Fig. 2 k show the surface profile with head of skull and the side view of multiple muscle.Show following bone： Frontal bone, sphenoid bone, nasal bone, cheekbone, maxilla, mandibular, parietal bone, temporal bone and occipital lobe.Show mental protuberance.Show following flesh Meat：Digastric muscle, masseter, nutator and cucullaris.
Fig. 3-1 is the stereogram of the nose cup system according to the example of this technology.
Fig. 3-2 is the side view of the nose cup system according to the example of this technology.Nose cup system is shown as covering head to refer to Show the substantially relative position of the headband in use.
Fig. 3-3 is the front view of the nose cup system according to the example of this technology.
Fig. 3-4 is the front isometric view of the pad of the nose cup system according to the example of this technology.
Fig. 3-5 is the stereo rearview of the pad of the nose cup system according to the example of this technology.
Fig. 3-6 is the upward view of the pad of the nose cup system according to the example of this technology.
Fig. 3-7 is the top view of the pad of the nose cup system according to the example of this technology.
Fig. 3-8 is the front view of the pad of the nose cup system according to the example of this technology.
Fig. 3-9 is the rearview of the pad of the nose cup system according to the example of this technology.
Fig. 3-10 is the viewgraph of cross-section of the pad of Fig. 3-9 nose cup system.
Fig. 3-11 is the stereogram of the winding pipe assembly of the nose cup system according to the example of this technology.
Fig. 3-12 is the rearview of the winding pipe assembly of the nose cup system according to the example of this technology.
Fig. 3-13 is the viewgraph of cross-section of the winding pipe assembly of Fig. 3-12 nose cup system.
Fig. 3-14 is the stereo rearview of the pad of the nose cup system according to another example of this technology.
Fig. 3-15 is the top view of the pad in Fig. 3-14.
Fig. 3-16 is the upward view of the pad in Fig. 3-14.
Fig. 3-17 is the front view of the pad in Fig. 3-14.
Fig. 3-18 is the viewgraph of cross-section of the pad in Fig. 3-17.
Fig. 3-19 is the enlarged drawing of Fig. 3-18 part；
Fig. 3-20 is the rearview of the pad in Fig. 3-14.
Fig. 3-21 is the side view of the pad in Fig. 3-14.
Fig. 3-22 is the rearview for showing the pad in Fig. 3-14 of transversal upper thread.
Fig. 3-23 is the cross section of line 3-23 to the 3-23 by Fig. 3-22.
Fig. 3-24 is the cross section of line 3-24 to the 3-24 by Fig. 3-22.
Fig. 3-25 is the cross section of line 3-25 to the 3-25 by Fig. 3-22.
Fig. 3-26 is the cross section of line 3-26 to the 3-26 by Fig. 3-22.
Fig. 3-27 is the cross section of line 3-27 to the 3-27 by Fig. 3-22.
Fig. 3-28 is the cross section of line 3-28 to the 3-28 by Fig. 3-22.
Fig. 3-29 is the cross section of line 3-29 to the 3-29 by Fig. 3-22.
Fig. 3-30 is the cross section of line 3-30 to the 3-30 by Fig. 3-22.
Fig. 3-31 to Fig. 3-34 is to show the illustrative steps for wearing the nose cup system according to the example of this technology Precedence diagram.
Fig. 3-35 is the viewgraph of cross-section of nose cup system for showing to be engaged with patient facial region according to the example of this technology.
Fig. 3-36 is the viewgraph of cross-section of nose cup system for showing to be engaged with patient facial region according to the example of this technology.
Fig. 3-37 is another stereogram of the pad in Fig. 3-14.
Fig. 3-38 is shown to be engaged with patient facial region and under stress or fills in use according to the example of this technology Spacer assembly under gas.
Fig. 3-39 is the pad set of hermetic unit for showing to be engaged with patient facial region in use according to the example of this technology The schematic rear view of part.
Fig. 3-40-1 to Fig. 3-40-8 show multiple views of the spacer assembly of another example according to this technology.
Fig. 3-41-1 to Fig. 3-41-10 show multiple views of the spacer assembly of another example according to this technology.
8.4PAP equipment
Fig. 4 a show a form of PAP equipment according to this technology.
Before this technology is more fully described, it is understood that the technology can change, tool as described herein is not limited to Body example.It is also understood that the term used in the disclosure is merely to illustrate the purpose for the instantiation being discussed herein and unawareness Scheme to be used to limit.
Description provided below, which is related to, may have several examples of common feature and feature.It should be understood that any reality One or more features of example be able to can be combined with one or more features of other examples.In addition, in any instance The combination of any single feature or feature can constitute other example.
In this manual, term " comprising " should be understood with its open to the outside world meaning, i.e. with the meaning of " having ", And it is thus not restricted to the meaning of its " closing ", i.e. the meaning of " only by ... constitute ".Corresponding implication should be attributed to it Occur corresponding term " comprising " (comprise) at position, " including (comprised) " and " including (comprises)”。
Term " air " is it will be appreciated that include breathable gas, such as air with supplemental oxygen.Therefore air supply Can be corresponding to the gas supply including air and supplemental oxygen.
The example of this technology is intended to easy and fast adaptation (for example, with seldom or without regulation), allows to reduce band The nose cup system of tensioning, can in high volume manufacture there is provided high consumer appeal there is provided comfortableness with sealing there is provided reliable Quality, unobtrusively, and/or adaptation majority of populations.
One or more examples can include the exemplary indicator such as size, angle, percentage.Although it is possible thereby to Specific index and scope are set, it is understood that these indexs and scope are merely exemplary and according to applying it Its index and scope are also possible.For example, these index/scopes changed may be adapted to especially from the +/- 10-20% of setting Application.
9.1 treatment system
In one form, the disclosure includes the device for being used to treat respiratory disorder.In instances, this device includes being used for The pressurization expiration gas of such as air is supplied via the air delivery pipe for being directed to patient interface 3000 (for example, with reference to Fig. 1 a) The flow generator or air blower of patient 1000.In a form, device is CPAP system, and device is logical in other forms Wind devices.
In one form, this technology includes a kind of method for treating respiratory disorder, including malleation is applied into trouble The step of entrance of the air flue of person 1000 (for example, with reference to Fig. 1 a).
9.2.1 it is used for OSA nasal CPAP
In one form, this technology treats patient including one kind by the way that the continuous Positive Airway Pressure of nose is put on into patient Obstructive sleep apnea method.
9.3 patient interfaces 3000
In terms of including following functions according to the patient interface 3000 of the one side of this technology：Sealing formed structure 3100, Pumping chamber 3200, positioning and rock-steady structure 3300 and the connection for being connected to air loop 4170 (for example, with reference to Fig. 3-2) Port 3600.In some forms, in terms of feature can be provided by one or more physical units.In some forms, In terms of one physical unit can provide one or more functions.In use, sealing forms structure 3100 and is disposed around The entrance of patient airway is to promote the air by direct draught to be supplied to air flue.
In instances, pumping chamber 3200 forms structure 3100 with sealing and is molded as one.They can in another example Two or more separate parts can be formed as.
It is nose cup system 100 according to a kind of form patient interface 3000 of this technology.Such as shown in Fig. 3-1 to Fig. 3-3 , according to the nose cup system 100 of this technology can include headgear assemblies 110, winding pipe assembly 120, air transfer assembly 130 and Spacer assembly or pad 150.Fig. 3-4 to Fig. 3-10 shows multiple views of spacer assembly 150, and Fig. 3-11 arrives Fig. 3-12 Show multiple views of winding pipe assembly 120.
It is spacer assembly 150 according to a form of pumping chamber 3200 of this technology.Spacer assembly 150 may be adapted to and wrap The patient airway for including patient's nose is sealingly engaged.As shown in Fig. 3-1 to Fig. 3-3, spacer assembly 150 can be housed from sky The breathable gas of gas transfer assembly 130 and/or winding pipe assembly 120, and supported in position by headgear assemblies 110 Place.
Spacer assembly 150 can include sealing area or sealing big envelope 151, two head Belt connectors 156, side wall or side wall Region 157 and attachment area 158.In instances, spacer assembly 150 can be formed by soft elastic part or rubber.
Fig. 3-14 to Fig. 3-30, Fig. 3-35 and Fig. 3-36-1 show the root similar with spacer assembly 150 to Fig. 3-40-2 According to multiple views of the spacer assembly 250 of another example of this technology.As described below, spacer assembly 250 is included close to pad The upper lip area of the sealing area of component thin-walled portion (for example, with avoid the nose pillar in patient with it is excessive on nasal septum Pressure).In addition, each side of the nasal region of sealing area include being suitable to the greater alar cartilage close to patient's nose with The sealed wing or sealing sheet are formed on the region of meet between nasal lateral cartilage.
In Fig. 3-14 to Fig. 3-21 example shown, D1 is about 85-105mm (for example, about 97mm), and D2 is about 35- 55mm (for example, about 48mm), D3 are about 35-55mm (for example, about 44mm), and D4 is about 30-50mm (for example, about 41mm), and D5 is about For 25-45mm (for example, about 35mm), D6 is about 20-30mm (for example, about 26mm), and D7 is about 40-60mm (for example, about 50mm), And D8 is about 20-30mm (for example, about 23mm).Although provided with certain size, it is understood that these sizes are only It is exemplary, and is possible based on the other sizes of application.For example, exemplary dimensions, which can be based on application, changes +/- 10- 20% or more or less.
9.3.1 sealing forms structure 3100
In a kind of form of this technology, sealing forms the offer sealing of structure 3100 and forms surface, and can be extraly Padding function is provided.
In instances, soft, flexible, elastomeric material system of the structure 3100 by such as silica gel are formed according to the sealing of this technology Into.
In one form, sealing, which forms structure 3100, includes sealing flange 3110 and support lugn 3120.In this technology A kind of form in, sealing flange 3110 includes the barrier film 160 of sealing area 151, and support lugn 3120 includes seal area The subgaskets or spare tape 165 (for example, with reference to Fig. 3-Figure 10) in domain 151.In instances, sealing flange 3110 includes having and surrounded The structure for the relative thin less than about 1mm thickness (e.g., from about 0.25mm to about 0.45mm) that the periphery 3210 of pumping chamber 3200 extends Part.In instances, the arm sealing flange 3110 of support lugn 3120 is relatively thicker.Support lugn 3120 is arranged in sealing flange Between 3110 and the margin 3220 of pumping chamber 3200, and the periphery 3210 at least on partial extent in pumping chamber 3200 Surrounding extends.Support lugn 3120 is spring-like member and is used to support sealing flange 3110 with anti-buckling in use. In use, sealing flange 3110 respond readily to the system pressure in effect pumping chamber 3200 on its bottom surface promote its with Facial tight seal engagement.
In a form of this technology, sealing, which forms structure 3100, includes top sealed portion 3102 and sealing portion point 3104 (referring to Fig. 3-10 and Fig. 3-21).Top sealed portion 3102 is for example positioned near each other with sealing portion point 3104, and And a region can be fused in another region.
9.3.1.1 top sealed portion 3102
Top sealed portion 3102 is configured and disposed on a part of nasal cartilages skeleton of nose form sealing.In a reality Example in, top sealed portion 3102 by relative thin material construction form, such as by the thin slice, flange or barrier film of material, for example by Thermoplastic elastomer (TPE) or silicone rubber, and further for example by when not in use in response to finger pressure gently The material that is readily bent or bends is constructed.Depending on the shape of the nose using top sealed portion 3102, top sealed portion 3102 relatively narrow width can engage to form sealing with the bridge of the nose.The relatively wide part of top sealed portion 3102 can be with The skin engagement adjacent with nasal lateral cartilage is to form sealing.For example, with reference to Fig. 3-39.
Top sealed portion 3102 is not designed to cover whole nose.
In an example, top sealed portion 3102 be configured and disposed to it is for example thin and flexible, to adapt to difference The bridge of the nose height.In this fashion, the facial scope of excellent sealing can be obtained by adding.
Further, for given face and nose, if the pliability of top sealed portion 3102 is it is meant that for example Pumping chamber 3200 is moved in response to air loop 4170, then sealing can be maintained.
When top sealed portion is constructed so that top sealed portion in use does not cover nasal bone, based on how definitely using The size and dimension of patient interface and specific face, the specific part of top sealed portion can cover one on some faces Divide nasal bone.
In alternative form, top sealed portion is configured and disposed to form sealing on nasal bone in use.
9.3.1.2 sealing portion point 3104
Sealing portion point 3104 is configured and disposed on a part of upper lip of patient 1 form sealing, and will at least A part of sealing force is oriented to the maxilla of patient.In use, a part of sealing portion points 3104 be positioned at postalifera and Near wing of nose summit.
In one form, sealing portion point is configured to avoid the excess pressure on upper tooth or upper gum.In a reality In example, sealing portion point does not extend upwardly to wing of nose summit along bone (such as the volume of maxilla is dashed forward), it should be understood that It may extend along bone in other examples.
Sealing portion points 3104 can be by for example by silicone rubber or thermoplastic elastomer (TPE), such as with about 1mm extremely Thin slice, edge or the flange of single, the relatively thicker material of 2mm thickness is constructed.In one form, sealing portion point 3104 can be constructed by dual thin slice, edge or flange, and for example another with a kind of and relative thick of relative thin carrys out structure Make.Alternatively, sealing portion point 3104 can be constructed by gel-filled bladder.
" 9.3.1.3 W " shape region
Fig. 3-41-1 to Fig. 3-41-8 show and regarded according to the multiple of spacer assembly 450 of another example of this technology Figure.In this example, spacer assembly includes substantially " W " shape in upper lip area, i.e., as in Fig. 3-40-4 best seen from Along the barrier film 360 in upper lip area it is outer (under) substantially " W " shape at edge 360 (o).
Fig. 3-41-1 to Fig. 3-41-8 show and regarded according to the multiple of spacer assembly 450 of another example of this technology Figure.This example shows the spacer assembly in upper lip area with generally " W " shape.With Fig. 3-40-1's to Fig. 3-40-8 Examples comparative, Fig. 3-41-1 to Fig. 3-41-8 pad example include along in barrier film 460 (on) edge 460 (i) with along Such as in Fig. 3-41-4 best seen from upper lip area in barrier film outer (interior) edge 460 (o) substantially " W " shape.
In one form, " W " of upper lip area is partly constructed and is arranged so that the center section of " W " in use It can be placed on subnasal point or nose pillar, form part (top) mobile feelings upwards in the event of sealing in use Shape, to leave gap around corresponding left and right postalifera, (for example, being indicated in Fig. 3-41-8 by c, it is in subgaskets Between 465 inward flange and the inner surface of pumping chamber).
In an example, as best seen from, a part is sealed in Fig. 4-41-6, Fig. 3-41-7 and Fig. 3-41-10 Part can have question mark shaped, sickle -shaped or c shapes cross section.The question mark shaped, sickle -shaped or c shapes cross section can So that in use towards the movement of patient facial region or flexible wider hermetic unit will be supplied to.In the example shown In, question mark shaped, sickle -shaped or c shapes cross section sets the bottom to subgaskets 465 and/or sidewall areas 457, so exists Space has been provided about under the bottom of subgaskets 465 and in sidewall areas 457.For example, the bottom of subgaskets 465 is towards side The outer radial skew of wall region 457.It should be appreciated that this cross section or only can be set around the whole periphery of pad This cross section is set (such as only in upper lip area) in the selection area of pad.Moreover, the size of this cross section and/ Or construction can change in selected region.
In Fig. 3-40-1 to Fig. 3-40-8 and Fig. 3-41-1 to Fig. 3-41-8 example shown, D1 is about 90- 110mm (for example, about 105mm), D2 are about 40-60mm (for example, about 51mm), and D3 is about 40-60mm (for example, about 51mm), D4 About 35-55mm (for example, about 44mm), D5 are about 30-50mm (for example, about 38mm), and D6 is about 25-35mm (for example, about 32mm), D7 is about 45-65mm (for example, about 58mm), and D8 is about 20-30mm (for example, about 26mm).Although provided with specific Size, it is understood that it is that these sizes are merely exemplary and according to application other sizes be possible.For example, Exemplary dimensions can change +/- 10-20% or more or less according to application.For example, hermetic unit and perforation can with wider, For example, D1 is about 100-120mm (for example, about 114mm), D6 is about 40-50mm (for example, about 42mm), and D7 is about 55-75mm (for example, about 68mm), and D8 are about 20-30mm (for example, about 24mm).In another example, hermetic unit can with perforation With narrower, for example, D1 is about 90-110mm (for example, about 100mm), D6 is about 25-35mm (for example, about 28mm), and D7 is about 45- 65mm (for example, about 54mm), and D8 are about 20-30mm (for example, about 24mm).
9.3.1.4 sealing area
According to another form of this technology, sealing, which forms structure 3100, includes sealing area 151.Sealing area 151 can It is suitable for sealing with patient interface and with the air flue formation of patient.Sealing area 151 can include the bridge of the nose or nasal bridge region 152nd, nasal side region 153, naricorn region 154 and upper lip area 155.Sealing area 151 can include barrier film or sheet type is close Sealing 160.In the example as shown in Fig. 3-18 and Fig. 3-19, the inward flange of barrier film 260 can include pearl 260-1, example Such as, to prevent tearing, the sealing along edge is strengthened.Sealing area 151 may further include around the periphery of sealing area The subgaskets or spare tape 165 of some or all extensions.This technology is pad for mask on the other hand, and its is close The upper extent for the nasal region being enclosed in generally above nose, and the wing of nose across patient's nose or nostril extension.
In instances, sealing area 151 can be with pre-formed or additionally preform so that with the topological profile of patient facial region Unanimously.
9.3.1.4.1 along the sealing of the bridge of the nose
One scheme of this technology is related to the sealing of the sealing area in nasal bridge region.In an example, nasal bridge region In sealing area be suitable for along the bridge of the nose between the pn and the nasion of patient, and along the nasal cartilages region of the bridge of the nose And under nasal bone or lower section engagement.That is, nose cup system is configured with sealing forming region, it is substantially being suffered from In at least a portion of the cartilage skeleton of person's nose and not on nasal bone, i.e., along the bridge of the nose without contacting the bridge of the nose/in nasal bone On skin seal.
For example, sealing area 151 is suitable for positioning and is sealed in the nose generally above nose (i.e. above pn) Its upper extent in region, and cross patient the wing of nose or the flaring nare portion of opening extension, such as not above the nasal bone of patient or Extend not across the nasal bone of patient.
In an example, sealing area 151, which is positioned at, is generally proximal to have some more nosey bones and cartilage Between meet nasal area in its upper extent, and avoid influence with compared with spur patient sight.
9.3.1.4.2 nasal bridge region
Nasal bridge region 152 may adapt to engage with the bridge of the nose of patient 1.In an example, nasal bridge region can shape Or the pre-formed bridge of the nose to adapt to patient, for example, as best seen from, nasal bridge region can be than nasal side region 153 on Fig. 3-7 Low (that is, closer to attachment area 158).Nasal bridge region 152 is used in the case of being included in no subgaskets or spare tape Sealed barrier film 160.In an example, this arrangement avoids the excess pressure in sensitive nasal bridge region.In an example In, the barrier film at nasal bridge region 152 can be relative with the barrier film in other regions of the sealing area of ratio such as upper lip area 155 It is longer.The length of barrier film in nasal bridge region 152 may be about such as 2mm to 5mm.In an example, in nasal bridge region 152 The length of barrier film can be about 2mm to 4mm.In an example, the length of the barrier film in nasal bridge region 152 can be big About 3mm.
9.3.1.43 nasal side region
Nasal side region 153 may adapt to the engagement sides with patient nose.In an example, nasal side region 153 can With it is pre-formed for adapt to patient nose side and be possible to adapt to their cheek.As on Fig. 3-Fig. 5 best seen from, Nasal side region 153 extends to naricorn region 154 at nasal bridge region 152 from the summit of pad.For example, see Fig. 3-6, nasal side area Domain 153 is inclined upward to naricorn region from nasal bridge region 152.Nasal side region 153 can be included in no subgaskets or spare tape In the case of be used for sealed barrier film 160.In an example, this set prevents patient's nasal side face or the wing of nose or flaring nare from opening portion On excess pressure.Excess pressure on these regions can cause nose flexible pipe inwardly to be collapsed towards nasal septum, so as to block or portion Block the air flue of patient with dividing.
9.3.1.4.4 naricorn region
Naricorn region 154 may adapt to seal with the formation of patient's naricorn.Fig. 3-6 is shown with as sealing area 151 maximum height substantially by the H1 summits indicated or the naricorn region 154 of point.This height ensures to apply maximum power To the sealing area 151 in naricorn region, because the sealing area 151 in the naricorn region 154 is the area of facial boniness Domain, and it is therefore relatively low to pressure sensitivity.In addition, because the geometric figure in this region of face is considerably complicated, This region of patient facial region is especially difficult to seal, therefore the power in the sealing being applied in this region is bigger, more may Form sealing.In addition, because requiring less sealing force (in order to comfortable and avoid closing in nasal bridge region and nasal side region Plug), so sealing area must be anchored at naricorn region.Naricorn region 154 can include barrier film or diaphragm seal 160 with And subgaskets or spare tape 165.The use of both barrier film and subgaskets can ensure sealing force bigger in this region.At one In example, barrier film can have about 0.1-0.5mm thickness, about such as 0.3mm.In an example, subgaskets can be with Thickness with about 0.3mm to 2mm.
9.3.1.4.5 upper lip area
The surface that upper lip area 155 may adapt between patient's upper lip and nose bottom is engaged.In an example, upper lip Region can have the diaphragm length more relatively much shorter than nasal bridge region 152, such as about 0.5mm to about 2.5mm length, example Such as about 1.5mm to 2.5mm.In an example, this shorter diaphragm length when some patients in their upper lip and There is advantage when only there is small space between their nose bottom.As best seen from, upper lip area 155 can have in Fig. 3-10 There are diaphragm seal 160 and subgaskets or spare tape 165.The use of both barrier film and subgaskets can ensure bigger in this region Sealing force.In an example, barrier film can have about 0.1-0.5mm thickness, such as 0.3mm.In an example, Subgaskets can have about 0.3mm to 2mm thickness, about such as 1.5mm.In an example, the thickness of subgaskets can To change along the length of upper lip area, for example from the about 0.3mm at naricorn region to the centre of upper lip area 155 about 1.2mm。
9.3.1.5 seal
If the use of subgaskets or spare tape enables to barrier film or face plate with only using single non-supported thin slice Situation compared to manufacture it is significantly thin.This is considerably advantageous, and reason is that thinner thin slice is then more flexible, to cause sense Feel scrambling that is more soft and more comfortable and more easily conforming to face contour.This also allow thin slice more readily respond in The system pressure acted in the pumping chamber on pumping chamber bottom surface, to promote the thin slice to enter the tight seal with patient facial region With reference to.
As noted, nose cup system is configured with the cartilage skeleton substantially on nose (i.e. not in nose On bone) and the sealing forming region that does not stop nose.In an example, by providing along patient's upper lip (such as under Hermetic unit) and compression seal (for example, using end liner mat structure) not on the nose of patient can realize that this is close Seal forming region.By the tension force and/or pneumostop in barrier film sealing on patient nose can be realized (for example, upper sealing Part).
For example, as shown in the pad example in Fig. 3-14 to Fig. 3-30 and also described in example above, end liner Pad or spare tape 265 be provided only in the naricorn region 254 and upper lip area 255 of pad, for example, see Fig. 3-16, Fig. 3-18, Fig. 3-22, Fig. 3-23, Fig. 3-29 and Fig. 3-30.That is, sealing area includes only constructing in nasal bridge region 252 and nasal side Single-layer septum 260 (for example, see Fig. 3-18 and Fig. 3-22 to Fig. 3-28) in region 253, and sealing area includes labial region,superior Two-layer separator 260 and subgaskets 265 in domain 255 and naricorn region 254.Double-decker is provided along the He of upper lip area 255 The compression seal in naricorn region 254.On the contrary, nasal bridge region and nasal side region use the tension force in barrier film (due to being applied to barrier film Tension force and the edge of barrier film is stretched in sealing engagement) and/or pumping chamber in the pressure acted on barrier film it is (pneumatic close Envelope) to provide sealing.Individual layer is additionally arranged in nasal bridge region and nasal side region to be avoided any to stop patient nose to provide More soft and more flexible seal, that is, prevent from causing cartilage inwardly to collapse in the meeting that patient's nasal side or the wing of nose or flaring nare are held in portion Collapse and be likely to make the excess pressure of patient airway occlusion at least in part.
Therefore, different sealing machine is provided in the different piece of pad according to the spacer assembly of this technology example Structure.For example, spacer assembly can provide a kind of sealing mechanism (for example, by the tension force in barrier film in the upper section of pad Sealing and/or pneumostop) and in the relatively lower part of pad provide different sealing mechanism (for example, compression seal).Showing In the example gone out, spacer assembly is provided via two-layer separator and the compression seal of end liner mat structure.It will be appreciated, however, that passing through For example gel-filled or foam-filled capsule, thicker single wall (such as silicones thick about 0.8mm to 1.2mm) are replaced The structure of choosing can provide compression seal.
Fig. 3-38 shows and engaged and under stress or under inflation with patient facial region in use, i.e., by the sky of direct draught Gas supply is applied to the example of the spacer assembly 250 of spacer assembly 250.Fig. 3-39 shows the hermetic unit along spacer assembly Shadow region, it illustrates the width of the hermetic unit engaged in use with patient facial region or contact area 280.Width or Contact area includes inward flange 280 (i) (for example, along the edge in aperture) and outward flange 280 (o).Fig. 3-36 is also with dotted line Show the outward flange 280 (o) of contact area.As shown, for example the shape based on the nose using top sealed portion, upper close The relatively narrow width of envelope part 3102 can engage to form sealing with the bridge of the nose.The relatively broad portion of top sealed portion 3102 Sealing can be formed with the skin engagement of adjacent nasal lateral cartilage by dividing.In sealing portion point 3104, it is basic that sealing portion is divided Upper whole width can form sealing along naricorn region and upper lip area and skin engagement.Therefore, in use and patient The width or contact area of the hermetic unit of face engagement can change to form sealing around spacer assembly periphery.
9.3.1.6 sealing sheet
In an example, as Fig. 3-14, Fig. 3-16, Fig. 3-20, Fig. 3-22, Fig. 3-26, Fig. 3-27, Fig. 3-35 and Fig. 3- Shown in 36, each nasal side region 253 of sealing area includes dashing forward from the edge of barrier film 260 along the interior periphery of barrier film 260 The part 270 of the such as wing or sealing sheet that go out.As in Fig. 3-35 and Fig. 3-36 best seen from, each sealing sheet 270 It is adapted in the adjacent area of the meet between the greater alar cartilage and nasal lateral cartilage of patient nose (also known as the wing of nose wrinkle) Sealing is formed on domain.Accurate location of the sealing sheet on face in use can be based on the nose using the sealing sheet Size and dimension and change.
As shown, each sealing sheet 270 be outwardly away from the pumping chamber of pad at least in part and formed angle or Prebias.When sealing sheet is engaged with the nose of patient, sealing sheet is biased towards pumping chamber, and this is provided for being previously mentioned Meet in sealed biasing.That is, the shape of sealing sheet, pliability and prebias allow thin slice to adapt to this The change (changing for example, this tends to continuous when the wing of nose or " flaring nare opens portion " in use) of curvature or profile in meet, To maintain to seal in use and to prevent leakage.
In an example, sealing flange (including barrier film 260 and sealing sheet 270) limits generally T-shaped aperture.Barrier film 260 edge along its inner circumference coordinates hole together with the edge along its inner circumference of each sealing sheet 270 Mouth 275 is limited in the pumping chamber.In an example, this aperture 275 is generally T-shaped, including upper bore portions 275 (1) (edge The lower bore portions 275 for the vertical axes v) as seen in Fig. 3-20 and being typically normal to upper bore portions 275 (1) and extending (2) (along the trunnion axis h) as seen in Fig. 3-20.
As best seen from, sealing sheet 270 changes curvature and/or the angle at the edge for limiting aperture 275 in Fig. 3-14 Degree, i.e., the edge in aperture 275 at least along sealing sheet 270 upwards or be outwardly away from pumping chamber bending.
9.3.1.6.1 curvature
The curvature of pad can change along the patient contact surfaces of the barrier film 260 in the different zones in pad, example Such as to contribute to the sealing in the facial different zones of patient.
For example, as shown in Fig. 3-14, nasal bridge region 252 and upper lip area 255 each include in curvature being office At least a portion of portion's saddle shape, for example, be bent upwards along a direction d1 and be turned under along another direction d2 It is bent.Fig. 3-37 is another view for the pad 250 for showing this saddle curvature in nasal bridge region 252 and upper lip area 255.
It should be understood that curvature shapes mentioned above are approximate shapes and should not restricted to the strict number of this shape Definition on.
Additionally, it should be appreciated that region can include approximate curvature shapes, but the magnitude of this curvature can not Together.For example, both nasal bridge region 255 and upper lip area 255 can be included at least a portion of local saddle shape, still In each region, the magnitude of the curvature on one and/or two basic direction of this saddle shape can be different.
9.3.2 perforation
In an example, in the case where single mask should be used to adapt to about 85% female population, end liner Pad perforation width (for example, being shown in Fig. 3-41-9 with uw) be about 36mm to about 42mm, or about 38mm to 40mm. In one example, in the case of the male demographic that should be used to adapting to about 85% in single mask, subgaskets perforation width Be about 40mm to about 46mm, or about 42mm to about 44mm.In one form, in order to not agnate nasal width Change is consistent, in order to adapt to up to 95% ordinary people, subgaskets perforation width be about 50mm to about 56mm, or about 52mm to about 54mm.
In an example, in the case where single mask should be used to adapt to about 85% female population, barrier film Perforation width (for example, being shown in Fig. 3-41-9 with mw) be about 23mm to about 29mm, or about 25mm to about 27mm. In an example, in the case where single mask should be used to adapt to about 85% male demographic, septal perforator width Be about 39mm to about 45mm, or about 41mm to about 43mm.In one form, in order to not agnate nasal width Change is consistent, in order to adapt to up to 95% ordinary people, subgaskets perforation width be about 49mm to about 55mm, or about 51mm to about 53mm.
9.3.3 pumping chamber 3200
The part of pumping chamber 3200 is formed by side wall.In one form, side wall includes the sidewall areas of sealing area 151 157.Pumping chamber has the periphery 3210 for the facial surface profile for being configured to conform generally to ordinary people (see Fig. 3-8 to Fig. 3-9). In use, the margin 3220 of pumping chamber 3200 orientates the adjacent surface for being very close to face as (see Fig. 3-10).With face The actual contact in portion is formed structure 3100 and provided by sealing.In an example, sealing forms structure 3100 and surrounded in use The whole periphery 3210 of pumping chamber 3200 extends.In an example, pumping chamber is suitable for the accommodating patient's for including pn A part for nose, such as pumping chamber formation in a part for the cartilage skeleton of the nose including pn or around.
In an example, the wall of pumping chamber 3200 is flexible or semirigid.In an example, pumping chamber 3200 do not include rigid frame or housing.In an example, the wall of pumping chamber 3200 is nonrigid, and such as pumping chamber 3200 wall is non-soft.In some forms, the pliability of the wall of pumping chamber 3200 helps to remove conduit drag force In order to avoid upset sealing.
In one form, the wall of pumping chamber 3200 is molded by silicone rubber.In an example, pumping chamber 3200 wall is by A type identation hardnesses with about 35 to about 40 and with about 2mm to about 4mm scopes thickness The silicone rubber construction of degree is formed.In the particular form of this technology, pumping chamber 3200 has different thickness in different regions Degree.
9.3.3.1 sidewall areas
Sidewall areas 157 can extend between the sealing area 151 and attachment area 158 of spacer assembly.Sidewall areas Can generally be cone, that is to say, that the sidewall areas can have closest to the first diameter at attachment area 158 And closest to the Second bobbin diameter of sealing area 151, wherein the first diameter is less than Second bobbin diameter.Sidewall areas can have about 1.5-5mm thickness, about such as 1.5-3mm, about such as 2mm.This thickness can provide some to sealing area 151 Support, prevents winding pipe assembly 120 from being contacted with patient nose, and ensure to pad when in use and will not be collapsed because of headband tension force Fall into.
Sidewall areas 157 can be connected or formed together with headband connector 156.Because this headband connector is arranged in Near sealing area 151, therefore the need for the device can replace to rigid frame or skeleton.Headband connector 156 can be with cloth Put on the opposite flank of side wall 157.
9.3.3.2 thin-walled portion
In an example, as in Fig. 3-16, Fig. 3-18, Fig. 3-23 and Fig. 3-30 best seen from, in sealing area Sidewall areas 257 between 251 and attachment area 258 includes the region 268 adjacent with the upper lip area 255 of sealing area, should Region includes the thickness smaller than the corresponding thickness of the bridge of the nose of sealing area, nasal side face and naricorn areas adjacent.That is, the area Domain 268 includes the thin walled cross sections adjacent with the upper lip area 255 of sealing area.The region 268 of this thinner cross section makes edge The power reduction that the section of upper lip area 255 is provided by sealing area.For example, this region 268 is provided along upper lip area 255 , smaller than naricorn region 254 pressure (that is, it is harder than upper lip area along naricorn region, so as to cause or influence along naricorn The relatively bigger pressure (along the labial angle adjacent with the wing of nose) in region), to avoid the more sensitive area as patient nose Excess pressure on the nose pillar or nasal septum of patient nose.
Fig. 3-22 to Fig. 3-30 shows the exemplary cross sectional view in multiple regions by spacer assembly 250.For example, Fig. 3-23 is the viewgraph of cross-section by nasal bridge region 252 and upper lip area 255, shows and only constructs in nasal bridge region 252 Individual layer or barrier film 260, and in upper lip area 255 bilayer or barrier film 260 and subgaskets 265.Fig. 3-23 also show Thinner transverse cross-sectional area 268 in the sidewall areas 257 adjacent with upper lip area 255, such as to avoid in nose pillar or nose In every upper excess pressure.In addition, Fig. 3-23 shows the attachment area 258 including thin-walled portion 258 (1), such as with permission The decoupling of pipe drag force.Fig. 3-24 and Fig. 3-25 shows the individual layer or barrier film 260 only constructed in nasal side region 253.Fig. 3- 26 and Fig. 3-27 also show the wing or sealing sheet 270 for only constructing the edge protrusion in nasal side region 253 and from barrier film 260 At least a portion in individual layer or barrier film 260.Fig. 3-27 and Fig. 3-28 shows at least a portion of headband connector 256. Fig. 3-29 and Fig. 3-30 shows bilayer or barrier film 260 and subgaskets of the construction in nasal region 254 and upper lip area 255 265.Fig. 3-30 shows the relatively thin transverse cross-sectional area 268 in the sidewall areas 257 of upper lip area 255.
9.3.4 position and rock-steady structure 3300
In instances, in use by positioning with rock-steady structure 3300 by the sealing shape of the patient interface 3000 of this technology It is maintained at into part 3100 at sealing station.
It is connected in one form via to positioning with 2 points of rock-steady structure 3300 by the patient interface 3000 of this technology Sealing form part 3100 and be maintained at sealing station.
In one form, positioning is connected to pumping chamber 3200 with rock-steady structure 3300 via headband connector 156.
In instances, only with two connectors 156 to pumping chamber 3200.
9.3.4.1 headband connector
Headband connector 156 can include the lug or interface for being suitable to be contained in mattress connectors 116 on headband 110 159.Similar device is disclosed in the PCT Application No. PCT/AU2008/001557 that on October 22nd, 2008 submits, it passes through The mode of reference is integrally incorporated herein.
Headband connector 156 can be angularly positioned relative to the vertical axes of sealing area 151.Such as in Fig. 3-6 and Fig. 3-7 In best seen from, headband connector 156 can relative to sealing area 151 vertical axes be at an angle of α positioning.In instances, Angle [alpha] may be about 90-135 °.In instances, angle [alpha] may be about 90-120 °.In instances, angle [alpha] may be about 90- 100°.Angle [alpha] is aligned with headband connector in this way, to ensure that the sealing force between pad and patient is enough do not producing It is raw uncomfortable or cause pad formed in the case of collapsing sealing (for example, when applying headband tensioning, angle a closer to 180 °, Pad may more be collapsed inward towards to vertical axes, thus clamp the nose of patient), the especially nasal side area in sealing area 151 In domain 153.
In alternative example, such as Fig. 3-40-1, Fig. 3-40-3, Fig. 3-40-5, Fig. 3-40-6, Fig. 3-41-1, Fig. 3-41-3, In Fig. 3-41-5, Fig. 3-41-6 best seen from, articulated elements or thin-walled portion 356 (1), 456 (1) can set each headband to connect Device 356,456 is connect, to strengthen the flexible of headband connector and allow sufficiently bending in use, therefore will not transfer head band Tensile force so that pad inwardly collapse, for example with avoid headband tensioning under clamp the wing.In addition, as shown in Fig. 3-41-6, can With one or more wall parts 457 (1) of the sidewall areas 457 between the lug of thickening head Belt connector, for example, to prevent or Person reduces collapsing for the sidewall areas under headband tensioning.
Headband connector can be angularly positioned relative to the trunnion axis of sealing area 151.Such as in Fig. 3-9 best seen from , headband connector 156 can be at an angle of β positioning relative to the trunnion axis of sealing area 151.In instances, angle beta can be about For 90-135 °.In instances, angle beta may be about 90-120 °.In instances, angle beta may be about 90-100 °.Angle beta with Such a mode is aligned with headband connector, so that it is guaranteed that the sealing force provided by headband connector 156 crosses over 151 points of sealing area Cloth so that more active forces are provided in upper lip area 155 and naricorn region 154, and provide less in nasal bridge region 152 Active force.This distribution can be more comfortable and stable.
As shown in figures 3 through 8, headband connector 156 can have the first width W1 in the region by proximal wall 157, and There is the second width W2, the first width W1 to be more than the second width W2 in its end.In instances, the first width W1 may be about 15-50mm.In instances, the first width W1 may be about 15-30mm.In instances, the first width W1 may be about 20- 25mm.In instances, the second width W2 may be about 15-30mm.In instances, the second width W2 may be about 15-25mm. In example, the second width W2 may be about 15-20mm.First width W1 ensures the active force that is provided by headband from nasal side region 153 are diffused into naricorn region 154, and also make pad stable in a horizontal plane.Second width W2 is arranged as reducing headband company Connect the vision block (visual bulk) of device 156 and allow the connection with mattress connectors 116.
Headband connector 156 is arranged advantageously close to sealing area 151.As seen in figures 3-6, headband connector 156 is positioned At the height H1 of sealing area 151.In instances, height H1 may be about 10-50mm.In instances, height H1 can be with About 10-30mm.In instances, height H1 may be about 10-20mm.In instances, height H1 may be about 20-30mm.This Arrangement ensures that headband power is transferred directly to hermetic unit, and sealing area can wrap or meet the nose geometric form of patient Shape.
Sealing force is directed to sealing area by the position of headband connector with size, cancels or eliminates in this way The need for headband support member or vertical headband band.For example, making sealing area steady by the width of the headband connector of proximal wall It is scheduled on patient facial region.The height of headband connector 156 to sealing area 151 ensures that headband active force is transferred directly to sealing Point, the need for thus eliminating to other stabilizations from forehead support.
In the alternate forms of this technology, headband connector 156 is individually formed with pumping chamber.
9.3.4.2 headgear assemblies
It is headgear assemblies 110 according to a kind of form of the positioning of this technology and rock-steady structure 3300.Headgear assemblies 110 can be with Suitable for spacer assembly 150 is supported, stablize and/or be positioned on patient facial region.
As shown in Fig. 3-1 to Fig. 3-3, headgear assemblies 110 can include the side strip for being connected to rear band 118 for a pair 115.Side strip 115 limits main headband ring, and the main headband ring can be located along the side of patient facial region, across patient's Cheek, extends between the eye of patient and ear, for example, cover at least a portion cheekbone, and direction for example covers a part of parietal bone Patient the crown.Side strip 115 can have the mattress connectors 116 for the headband connector 156 for being suitable to accommodate pad 150. Side strip 115 can have regulation part 117, wherein the mutually locking of side strip 115 or be otherwise connected to each other simultaneously And length relative to each other can be adjusted.Band 118, which extends between side strip and cyclic can pass through to set, afterwards arrives side The respective slots 114 of band 115.Band 118 limits the back band that can be positioned at top behind patients head afterwards, for example Engaged along patient's occipital bone or below patient's occipital bone.In instances, band 118 or back band after headband in use A part is covered in occipital bone lower section or the point on following head or engaged with the point on occipital bone lower section or following head, example Such as, a part of band is disposed close on a part of cucullaris of occipital bone in use.In instances, band after at least a portion 118 below the lower edge of occipital bone or lower section is engaged, and this lower edge helps to make rear band be held in place in and prevent Band is straddled on patients head after only, for example, preventing from sliding along upward direction.Reference picture 2i and Fig. 3-2 is used for cucullaris Exemplary positioning along a part of cucullaris of positioning and rear band 118.In instances, headband band is sufficiently resilient or soft Property, such as to strengthen comfortableness and controllability.For example, it may not be necessary to for the length adjustment worn.
In one form, headgear assemblies 110 include silica gel major part and fabric aft section.In another form In, headgear assemblies 110 include fabric major part and fabric aft section.In another form, headgear assemblies 110 include Fabric major part and silica gel aft section.
In one form, headgear assemblies 110 are constructed and are arranged as substantially soft.
In one form, headgear assemblies 110 include main structure tie member, and rear structure tie member.
Exemplary headband group is disclosed in the PCT Application No. PCT/AU2008/001557 that on October 22nd, 2008 submits Part 110, it is integrally incorporated herein by reference.
9.3.5 blow vent 3400
In one form, patient interface 3000 includes constructing and is arranged as allowing the logical of the carbon dioxide discharge of exhalation Gas port 3400.
Multiple holes, e.g., from about 20 to about 80 holes, Huo Zheyue are included according to a kind of form of the blow vent 3400 of this technology 40 to about 60 holes, or about 45 to about 55 holes.
In instances, blow vent 3400 is positioned in the isolating construction 3500 of such as revolving part 3510.Alternatively, blow vent 3400 are positioned in pumping chamber 3200.
It is blow vent 126 according to a kind of form of the blow vent 3400 of this technology.Blow vent 126 can allow from nose cup system The gas discharge of system exhalation.Blow vent 126 can include some row hole, meshes or be adapted to allow for other cloth of gas flowing Put.In instances, blow vent 126 can avoid the air duct for discharging exhaled gas from collapsing with sufficiently rigid.Blow vent 126 can (e.g., including side to be positioned on other regions of bend pipe 125 or such as air delivery pipe component 130 or spacer assembly 150 Wall 157).
In some forms of this technology, blow vent 3400 can by the flexibility that is supported by sufficiently rigid framework or Soft material constructs to avoid discharging collapsing for the air duct of exhaled gas.
In alternate forms, patient interface 3000 includes blow vent.
9.3.6 isolating construction 3500
In one form, patient interface 3000 includes at least one isolating construction 3500, such as revolving part 3510 or ball Nest and socket 3520 (for example, with reference to Fig. 3-13).In one form, isolating construction 3500 can be at least partially through attachment Region 158 is formed.
9.3.6.1 attachment area
Attachment area 158 may be adapted to accommodate winding pipe assembly 120.Attachment area 158 can be included than sidewall areas 157 more Thin wall part 158 (1), such as attachment area 158 can have about 0.1-1mm wall part, e.g., from about 0.2-0.8mm, example Such as from about 0.5mm.In instances, thin-walled portion is constructed to allow for separating pipe drag force with sealing force.
9.3.7 connectivity port 3600
In one form, be made up to the connectivity port 3600 of air loop 4170 of winding pipe assembly 120 (for example, with reference to Fig. 3-1 and Fig. 3-2).
9.3.7.1 winding pipe assembly
Interface that winding pipe assembly 120 may be adapted to connect between spacer assembly 150 and air transfer assembly 130 or as lining Interface between pad assembly 150 and air transfer assembly 130.Winding pipe assembly 120 can be by air transfer assembly 130 or pad set Part 150 is formed or is integrally formed.Winding pipe assembly 120 can be adapted to the gas for allowing discharge to breathe out.
As shown in Fig. 3-1 to Fig. 3-3 and Fig. 3-11 to Fig. 3-13, winding pipe assembly 120 can include bend pipe 125, and this is curved Pipe has blow vent 126, and the bend pipe is connected to connector ring 128 or otherwise formed together with connector ring 128.It is curved Pipe 125 can be formed together with globe joint and connector ring 128 can be constructed and be arranged as allowing the rotation of globe joint Turn simultaneously ensure it is sufficiently sealed with bend pipe, so as to ensure air leakage do not jeopardize patient treatment pressure.Globe joint is provided The separating mechanism that for example pipe drag force is separated with sealing force.
Bend pipe 125 could be attached to or be otherwise connected to the rotation suitable for accommodating air delivery pipe component 130 Turn part 129.Revolving part 129 may be arranged such that it can be with the formation of bend pipe 125 sealing or with being let out with the low of bend pipe 125 Dew, while can also be rotated freely through relative to bend pipe 125.
9.3.8 forehead support
In instances, patient interface 3000 does not include forehead support, but before can including in an alternate forms Volume support member.
9.3.9 anti-suffocation
In one form, patient interface 3000 includes anti-suffocation valve.
9.3.10 port
In a kind of form of this technology, patient interface 3000 includes one or more ports, and it allows access into pumping chamber Space in 3200.In one form, it is allowed to clinician's supply supply oxygen.In one form, it is allowed to pumping chamber In characteristic gas in 3200 carry out direct measurement, such as pressure.
9.3.11 air loop 4170
It is air transfer assembly 130 according to a form of air loop 4170 of this technology.Air transfer assembly 130 can To be configured to flow generator being connected to mask system 100.Show as described in Fig. 3-1 to Fig. 3-3, air delivery system 130 can With including pipe 133 and connector 135.Pipe 133 can be relative flexibility.Connector 135 may be adapted to accommodate bend pipe group The revolving part 129 of part 120.
9.3.12 wear and remove
Nose cup system provides small-sized, the inconspicuous mask system easily wearing, easily remove, and it is stable, comfortable, have Effect, there is provided wide cooperation scope, unobtrusively, easily use and can adjust.In addition, nose cup system provide non-nose pitch or Non- nasal pillow arrangement (that is, nose cup system provides the nose formula pad being suitable in use around the single aperture in two nostrils), its Not by jet-action the problem of, also do not pitched or nasal pillow by with the nose nose suitable for extending up to patient's nose at least in part Related is potential uncomfortable.Nose cup system is constructed so as to need seldom or need not adjusted with by nose cup system adaptation To the head of patient.In instances, set without forehead support and arrive mask system, but one can be set if desired It is individual.
In the example shown, nose cup system 100 is connected there is provided 2 points with pad, i.e. two sides of headgear assemblies Side of the band 115 along pad 150 engages with corresponding headband connector 156 and (arrives Fig. 3-3 for example, with reference to Fig. 3-1).Headband Component provides three point of adjustment, for example, the variable partition 117 and the respective slots by side strip 115 of side strip 115 The corresponding controllability of the end of 114 rear band 118.It should be understood, however, that more or less regulations can be set Point, such as side strip can set fixed length not have controllability with rear band.
In instances, 2 points of connections need not wear or remove mask system with fixture engagement or disengagement, i.e. There is no fixture to set to mask system but fixture can be set if desired.In addition, the main head limited by side strip 115 Band extends to upper rear position from inferoanterior position, and this avoids any headband band as described below and extended below ear (that is, band is not passed through the lower section of patient ear).
Fig. 3-31 to Fig. 3-34 provides description and is for example previously used for nose cup system air pressure is applied into pumping chamber System is installed to a series of views of the illustrative methods of patient.As shown in Fig. 3-31, patient can grasp nose cup system, make A hand keeps spacer assembly 150 in the way of towards patient facial region's orientation sealing area, and another hand with allow by Band 118 after the mode for the main headband ring receiving patients head that side strip 115 is limited is kept.Then, as shown in Fig. 3-32, Spacer assembly is engaged with patient facial region, and is held it in when rear band passes through main headband ring above patients head.Can be with Rear band is drawn on the head of patient together with the side strip being attached to thereon, until the rear band edge as shown in Fig. 3-33 And positioned behind patients head, i.e., band rotates around spacer assembly or is pivoted on patients head until band is engaged simultaneously And it is self-positioning on patients head.Finally, as shown in Fig. 3-34, it may be necessary to after regulation 118 end of band and/or The regulation part 117 of side strip is so that nose cup system is fixed on patients head.
This device is easily worn and taken off because band need not be pulled downward on across ear with wear mask system or Pulled up across ear and be easy to above patients head sliding up/down as cap to remove mask system, i.e. headband band. That is, mask system includes the headband that can be worn and removed as cap in the case where not disturbing the ear of patient.
In use, side strip 115 is arranged as drawing along upper rear to (for example, the arrow al such as in Fig. 3-34 is indicated) Dynamic nose cup system, this nasal bridge region along spacer assembly 150 provides less compression stress, because this region is along patient's nose The more sensitive region in portion, i.e., along the cartilage (non-bone) of nose as described above, therefore this is favourable.Padded with nose formula Mask generally includes headgear assembly, and the headgear assembly is arranged as along being arranged essentially parallel to Frankfort horizontal line (such as Fig. 3-34 In arrow a2 indicate) direction pull mask, to provide compression sealing force substantially orthogonal with patient facial region.To carry For this power, headgear assembly is packaged in the band of extension below patient ear, to provide this power along Frankfort horizontal direction. In the mask system according to the example of this technology, headgear assemblies be arranged as along upper rear to pull mask, such as similar " nose Under " mask (for example, nasal pillow or bracket), it is provided keeps filling as described above simultaneously along the less compression stress of nasal bridge region The sealing divided.Therefore, nose cup system provides headband, and the headband provides the effective sealing vector for being similar to mask " under nose " (that is, being not parallel to Frankfort level), and be not intended to cover the mask of a part of nose, i.e. nose cup system strictly along Frankfort level compromise sealing force across ear's headgear assembly so as to conveniently wear.
9.3.13 the pivot regulation of pumping chamber
Fig. 3-9 shows headband tensioning lines of the headband tie point hp i.e. when headband is connected to spacer assembly 150, with face Vertical range h3 between the pivoting point or rotary shaft pp of spacer assembly 150 i.e. on upper lip.This vertical range h3 allows regulation Headband tensioning is adjusted with producing rotation or pivot of the pumping chamber/spacer assembly around pivoting point pp.As shown, headband tie point Hp is above the contact point of pivoting point pp or spacer assembly and upper lip.This arrangement is allowed users to via the tensioning of regulation headband Make spacer assembly rotation/pivot, and be only applicable 2 headband connections to adapt to different bridge of the nose geometries.In instances, increase Plus vertical range h3 will increase momentum.
9.4PAP equipment 4000
Include machinery according to the PAP equipment 4000 of the one side of this technology and Pneumatic component, electric component and program To perform one or more algorithms.In instances, PAP equipment has external shell, the external shell for example formed by two parts The top 4012 of body and the bottom 4014 of external shell.In alternative form, external shell can include one or more Panel 4015.In instances, PAP equipment 4000 includes the chassis of one or more internal parts of support PAP equipment 4000 4016.In a form, air body block (pneumatic block) is supported by chassis 4016, or is formed as chassis 4016 A part.PAP equipment 4000 can include handle 4018.
In instances, the pneumatic path of PAP equipment 4000 include inlet air filter 4112, it is intake silencer, controllable The positive pressure air source (for example, air blower 4142) of system, and exit silencer.Include one or more pressure in pneumatic path Sensor and flow-sensint unit.
In instances, air body block includes a part of pneumatic path being positioned in external shell.
In instances, there is PAP equipment 4000 power supply 4210, one or more input equipments 4220, processor, pressure to set Preparation controller, one or more protective loops, memory, transformer, data communication interface and one or more output equipments. Electric component may be mounted on single printed circuit board component (PCBA) 4202.In alternate forms, PAP equipment 4000 can be with Including more than one PCBA4202.
The processor of PAP equipment 4000 in use is programmed to carry out series of algorithms module, it may for example comprise pretreatment becomes Parallel operation signaling module, treatment engine block, pressure control module and other such as fault condition modules.
9.5 term
, can be using one or more of defined below in the particular form of this technology.In other shapes of this technology In formula, interchangeable definition can be applied.
Air：Air is considered to include breathable gas, such as air with supply oxygen.
Positive airway pressure (PAP)：PAP treatments represent to supply air or breathable gas in the direct draught relative to air To being applied to air flue entrance.In one form, pressure constantly will pass through trouble for just (CPAP) and such as approximately constant The respiratory cycle of person.In some forms, there will be several centimeter water columns in single breath cycle in the pressure to air flue porch Change, for example intake period it is higher and during exhaling it is lower.In some forms, the pressure in the porch to air flue Power will be slightly higher and lower slightly in intake period during exhaling.In some forms, pressure will be multiple centimetres, such as in air-breathing During than being higher by about 5-15cm hydraulic pressure in exhalation process, and provide ventilation support.In some forms, in patient not Pressure during circulating of sharing a common fate will change, for example, increase in response to the detection of the instruction of partial upper airway obstruction, and The instruction of partial upper airway obstruction reduces in the case of lacking.
9.5.2 the anatomy of face
The wing (ala)：The outer wall or " wing " (plural number in each nostril：alar)
Wing of nose end：The point of most side on the wing of nose.
Wing curvature (or wing top) point：Rearmost point in the baseline of the bending of each wing, wherein, by cheek and the wing The point is found in the fold that joint portion is formed.
Auricle or auricle：The whole visible outside of ear.
(nose) bone skeleton:The bone skeleton of nose includes nasal bone, and the volume of maxilla is prominent and nose of frontal bone.
(nose) cartilage skeleton：The cartilage skeleton of nose includes nasal septal cartilage, flank cartilage, big cartilage and small cartilage.
Nose pillar：Separate nostril and the strip band of upper lip is extended to from pn.
Nose small roll angle：By nose cut outs the lines drawn by midpoint with perpendicular to Frankfort level simultaneously with nose The angle between lines drawn by point intersection.
Frankfort horizontal plane：The line of left tragus point is extended to from the most subordinate point of margo orbitalis.
Glabella：It is positioned on parenchima, the most salient point in the central sagittal plane of forehead.
Nasal lateral cartilage：The plate shape organ of the generally triangle of cartilage.Its upper limb is attached to the volume of nasal bone and maxilla It is prominent, and its lower edge is connected to greater alar cartilage.
Greater alar cartilage：Plate shape organ below nasal lateral cartilage.It bends around the previous section in nostril.It The volume that rear end is connected to maxilla by the rough wearing fiber barrier film of the three or four small nasal alar cartilages including the wing is dashed forward.
Nostril (nose hole)：Form the perforation of the approximate ellipsoidal of the entrance of nasal cavity.The singulative in nostril (nares) It is nostril (naris) (nose hole).Nostril is separated by nasal septum film.
Nasolabial groove or muffle fold：A crease in the skin or groove extend to the corners of the mouth from each side of nose, make cheek with it is upper Lip is separated.
Nasal labial angle：Angle is intersected between pillar and upper lip, and with subnasale.
Basic point on ear：Lower attachment point of the auricle to the skin of face.
Basic point on ear：Upper attachment point of the auricle to the skin of face.
Pn：The most salient point or tip of nose, can recognize it in the side view of the remainder on head.
In people：The middle line groove at the top of the lip extended to from the lower boundary of nasal septum film in upper lip area.
Pogonion：It is positioned on the soft tissue of foremost intermediate point of chin.
(nose) beam：The bridge of the nose is the center line protuberance for the nose that pn is extended to from the nasion.
Sagittal plane：Pass through the perpendicular of (rear end) below by body from above (front end) and be divided into right side and left half Portion.
The nasion：It is positioned on soft tissue, covers the most recessed point in the region of frontonasal suture.
Septal cartilage (nose)：A part for nasal septal cartilage formation barrier film and the front portion for splitting nasal cavity.
Postalifera：In the skin engagement of the point of the lower edge of wing of nose base portion, wherein wing of nose base portion and upper (upper end) lip.
Subnasal point：It is positioned on soft tissue, the point that pillar is combined with the upper lip in central sagittal plane.
Pogonion：The point of maximum cavity in the center line that lower lip stitches the lower lip between soft tissue pogonion.
9.5.3 the anatomy of skull
Frontal bone：Frontal bone includes big vertical portion, and frontal squama is corresponding to the region of referred to as forehead.
Mandibular：Lower jaw bon e formation lower jaw.Mental protuberance is that the apophysis in the jaw portion to form chin goes out.
Maxilla：The upper jaw bon e formation upper jaw and it is positioned above mandibular and below eye socket.The volume of maxilla is dashed forward Up protruded in the side of nose, and form a part for its lateral boundaries.
Nasal bone：Nasal bone is oval bone two small, change in size and forms Different Individual；They are arranged side by side in face The middle part and top in portion, and crossing by them, form " beam " of nose.
Nasion：Os prefrontale intersects with two nasal bones, and sunk area is directly between eye and more than the bridge of the nose.
Occipital bone：Occipital bone is positioned at the rear portion and bottom of skull.It includes ellipse perforation, occipital bone punching, passes through its skull Cavity and canalis spinalis UNICOM.Twisted plate behind foramen magnum is occipital squama.
Eye socket：The bone cavity body in skull for accommodating eyeball.
Parietal bone：Parietal bone is the bone at the top and side that form skull when engaged together.
Temporal bone：Temporal bone is positioned on the base portion and side of skull, and supports referred to as temporal facial part.
Cheekbone：Face includes two cheekbones for being positioned in the top of face and sidepiece and being formed the protrusion of cheek.
9.5.4 respiratory system anatomy
Diaphragm：The muscle layer extended across thorax bottom.Diaphragm is by the thorax including heart, lung and flank and abdominal cavity Separation.When diaphragm shrinks, the volume of thorax increases and air is inhaled into lung.
Larynx：Larynx or larynx accommodate vocal cords and are connected pharyngeal bottom (hypopharynx) with tracheae.
Lung：The organ of breathing in human body.The conductive area of lung is comprising trachea-bronchial epithelial cell, bronchiole and end is thin eventually Bronchus.Breathing area includes respiratory bronchiole, alveolar ducts and alveolar.
Nasal cavity：Nasal cavity (or nose alveole) is big air filling sky on the nose at the middle part of face and below Between.Nasal cavity is divided into two by the vertical fin for being referred to as nasal septum.There are three levels on each side in nostril Grow portion, be referred to as external ear (conchae, its singulative be concha) or turbinate.It is nose in front of nasal cavity, and The rear of nasal cavity is bent in nasopharynx via choana.
It is pharyngeal：Being sitting at below nasal cavity of throat (under) and oesophagus and throat above part.It is pharyngeal generally to be divided It is segmented into three parts：Nasopharynx (epipharynx) (pharyngeal nose), oropharynx (middle pharynx) and laryngopharynx (hypopharynx).
9.5.5 material
Silicones or silicone rubber：A kind of synthetic rubber.In this manual, involved silicones is related to liquid silicon Resin rubber (LSR) or compression molding silicone rubber (CMSR).A form of commercially available LSR is by DowCorning systems The SILASTIC (being included in a series of products sold under the trade mark) made.LSR another manufacturer is Wacker.Unless Be otherwise noted, otherwise LSR exemplary form have as use ASTM D2240 measured by scope about 35 to about 45 Shore A (or A classes) identation hardness.
9.5.6 the scheme of patient interface
Anti- asphyxia valve (AAV)：The part or subassembly of mask system, it is opened by way of with error protection to air Open, reduce the risk of the transition carbon dioxide rebreathing of patient.
Bend pipe：The axle of air-flow is instructed to change nyctitropic conduit by angle.In a form, angle can approximate 90 Degree.In another form, angle can be less than 90 degree.Conduit can have approximate circle cross section.In another form In, conduit can have the cross section of ellipse or rectangle.
Framework：The tension force that frame representation is used to bear and position between two or more tie points of rock-steady structure is carried The face mask structure of lotus.Mask frame can be the load bearing construction of the non-hermetically sealed in mask.However, some form of mask frame Frame can be airtight.
Headband：Headband represents to designed to be used a form of positioning and rock-steady structure on head.In instances, headband Include the set of one or more depression bars, frenulum and hard thing, be configured as placing patient interface and be maintained at patient facial region On appropriate location in, so as to the transmission of respiratory therapy.Some frenulums are laminated the soft, soft of synthetic by such as foamed fabric Property, elasticity material manufacture form.
Barrier film：Barrier film, such as in the case of hermetic unit and/or face-contacting portion, represent preferably substantially right In bending without resistance but for stretching the resistive usual thin element of tool.
Pumping chamber：Mask plenum represents a part for patient interface, and the part has the wall of packaging space volume, the body There is the air for being pressurized to superatmospheric in use in product.Housing can form a part for the wall of mask plenum. In a form, the region of patient facial region forms a part for the wall of pumping chamber
Sealing：Its title form (" seal ") represents structure of the intentionally resistance by the air-flow of the interface on two surfaces Or barrier.Verb form (" sealing ") represents resistance air-flow.
Housing：Housing preferably represents the warp architecture of tractile and compressible hardness with bending, for example The part for being used to form the warp architecture wall of mask of mask.In instances, compared with out to out, its relative thin.In some shapes In formula, housing is that tool is faceted.In instances, the wall is airtight, but in some forms they can not be it is airtight 's.
Rigid member：Rigid member represents to be designed to increase the bending resistance of another component at least in one direction Construction package.
Depression bar：Depression bar is used as a kind of structure member, and it is designed as increasing the resistance to of another part at least one direction Pressure property.
Revolving part：(noun) is configured as example for example rotating independently and under small moment of torsion on common axis The sub-component of part.In a form, revolving part may be constructed such that at least 360 degree of angle is passed through in rotation.At another In form, revolving part may be constructed such that at least 360 degree of angle is passed through in rotation.When being used in the environment in air delivery conduit When, the tubular conduit pair of the sub-component of the part for example including matching.In use preferably almost not with and without air-flow From the leakage of revolving part.
Frenulum：Frenulum is designed to resist the structure member of tension force.
Blow vent：(noun) structure allows intentional, speed of the air from the inside of mask or conduit to surrounding air Controlled leakage, with allow the to give off carbon dioxide discharge of (CO2) and the supply of oxygen (O2).
9.5.7 the term used in patient interface
Soft：The quality of the material, structure or the synthetic that are combined with following characteristics：
A) finger pressure is readily conformed to.
B) when causing it to support the weight of its own, it can not keep its shape.
C) it is nonrigid.
Soft quality can have related direction, therefore specific material, structure or synthetic can be in a first direction In be it is soft but in a second direction, such as be hard or rigid in second direction orthogonal with first direction.
It is springy：Can substantially it be resiliently deformed within the relatively short time cycle of such as 1 second and in unloading Substantially all energy are discharged afterwards.
It is rigid：When erectting and maintaining patient interface with the sealing relationship to the entrance of patient airway, it is not easy to pair The finger pressure and/or tension force that typically encounter or deformation under load.
It is semirigid：Mean sufficiently rigid with the effect for the mechanical force being commonly applied between air flue healthy tendency pressure treatment phase Under be substantially inflexible.
9.6 other remarks
A disclosed part for patent document includes material protected by copyright.Copyright owner does not oppose by this specially The disclosed reproduction that anyone is carried out of sharp document or this patent, because it appears in the patent document or note of patent and trademark office In record, but retain all copyrights.
Unless it is not such or there is provided a series of values that context, which is explicitly indicated, be otherwise appreciated that scope the upper limit and To any described in other or middle in 1/10th each median and the scope of lower limit unit between lower limit Value is included in this technique.These medians can be included by the upper and lower bound being independently include in intermediate range In this technique, unless had any limitation specifically excluded in the scope.Include one or amount in the scope In the case of limitation, it is not also included in including the scope of one or two in these limitations in this technology.
In addition, in the case of value to be expressed as being implemented as to the part of this technology herein, it is understood that the value can be with Approximate, be not unless otherwise indicated so, and the value can be used for any appropriate effective digital, as long as particular technique should With permission or needs.
It is not that so, all technologies used herein and scientific terminology have with being led belonging to the technology unless stated otherwise The implication identical implication that the those of ordinary skill in domain is generally understood that.Although identical with those described methods and material or wait Any means and material of effect can also be used for the implementation and test of this technology, but this document describes the exemplary side of limited quantity Method and material.
When specific material is considered as being preferably used for structural member or the example as structural member, with similar spy Property obvious Alternate materials can be used as replace.
It has to be noticed that such as in the singulative " one (a) " imposed herein and in claim, " one (an) " and " being somebody's turn to do (the) their plural equivalent " is included, unless it is not so that context, which is explicitly indicated,.
By reference to mode all disclosures as described herein are incorporated herein, and they describe those disclosed themes Method and/or material.Disclosure as described herein is provided to be only used for their disclosures before the date of filing of the application.Should not Anything herein is construed to allow this technology not have the qualification earlier than the disclosure.In addition, what is provided is disclosed Date can be different from actual publication date, wherein, it may be necessary to independently confirm the actual publication date.
In addition, when explaining disclosure herein, it should explain all with most a wide range of rational method consistent with the context Term.Specifically, term " including (comprises) " and " including (comprising) " should be interpreted with non exhaustive Mode is related to element, part or step, for indicating that involved element, part or step can be with other to refer explicitly to Element, part or step occur or utilize or combine together.
The topic headings used in detailed description for the ease of reader's reference and be included and bel not applied to limit The theme found through open or claim.Topic headings bel not applied to explain claim or scope or claim Limit.
Although describing this paper technology with reference to instantiation, it is to be appreciated that these examples are merely illustrative technology Principle and application.In some cases, term and symbol can imply that the unwanted detail of implementation technology institute.For example, Although term " first " and " second " can be used, they are not intended for indicating any order but in different members Made a distinction between part, be not so except as otherwise noted.In addition, although can in order describe or the process of illustration method is walked Suddenly, but the order is not essential.Those skilled in the art will be recognized that the order can be changed and/or can Simultaneously or even synchronously to perform its scheme.
It is understood, therefore, that a large amount of modifications can be made to shown example, and the spirit and scope of the technology are not being departed from On the premise of it is contemplated that other configurations.
10. reference numerals list
Nose cup system 100
Headgear assemblies 110
Slit 114
Side strip 115
Mattress connectors 116
Adjust part 117
Band 118 afterwards
Winding pipe assembly 120
Bend pipe 125
Blow vent 126
Connector ring 128
Revolving part 129
Air transfer assembly 130
Pipe 133
Spacer assembly 150
Sealing area or sealing big envelope 151
Nasal bridge region 152
Nasal side region 153
Naricorn region 154
Upper lip area 155
Headband connector 156
Sidewall areas or side wall 157
Attachment area 158
Thin wall section 158 (1)
Lug 159
Barrier film 160
Subgaskets or spare tape 165
Spacer assembly 250
Sealing area 251
Nasal bridge region 252
Nasal side region 253
Naricorn region 254
Upper lip area 255
Headband connector 256
Sidewall areas 257
Thin-walled portion 258 (1)
Attachment area 258
Barrier film 260
Subgaskets or spare tape 265
Thin transverse cross-sectional area 268
Sealing sheet or the wing 270
Upper bore portions 275 (1)
Lower bore portions 275 (2)
Contact area 280
Inward flange 280 (i)
Outward flange 280 (o)
Spacer assembly 350
Articulated elements 356 (1)
Barrier film 360
Outward flange 360 (o)
Spacer assembly 450
Articulated elements 456 (1)
Sidewall areas 457
Wall part 457 (1)
Barrier film 460
Outward flange 460 (o)
Inward flange 460 (i)
Subgaskets 465
Sickle-shaped cross-section 466
Bed is with 1100
Sealing forms structure 3100
Top sealed portion 3102
Sealing portion point 3104
Sealing flange 3110
Support lugn 3120
Pumping chamber 3200
Periphery 3210
Margin 3220
Positioning and rock-steady structure 3300
Blow vent 3400
Isolating construction 3500
Revolving part 3510
Socket 3520
Connectivity port 3600
PAP equipment 4000
Top 4012
Bottom 4014
Air blower 4142
Air loop 4170
Input equipment 4220
1. a kind of nose cup system, it includes：
Spacer assembly, it includes the nasal bridge region with two nares suitable for being sealed in patient's nose, nasal side region, nose Angular zone and the sealing area of upper lip area,
The nasal side region includes fitting along near the meet between the greater alar cartilage and nasal lateral cartilage of patient's nose Region substantially positions and is sealed in the part on the cartilage skeleton of patient's nose,
The sealing area include around the sealing area whole periphery extend barrier film, and the part include along The wing or sealing sheet that the inner rim of the barrier film is protruded from the edge of the barrier film.
2. nose cup system according to claim 1, wherein, the nose cup system, which is configured with, is not contacting the bridge of the nose or nose In the case of skin on bone sealedly sealing forming region is formed along the bridge of the nose.
3. the nose cup system according to any one of claim 1 and 2, wherein, the wing or sealing sheet are at least in part It is outwardly away from and is at an angle of or prebias by the respiratory chamber that the spacer assembly is provided.
4. nose cup system according to claim 3, wherein, when the nose with patient is engaged, the wing or sealing sheet Bias to provide for the sealed biasing in meet towards the respiratory chamber.
5. nose cup system according to any one of claim 1 to 4, wherein, it is the shape of the wing or sealing sheet, flexible Property and prebias allow the wing or sealing sheet to adapt to the change of the curvature in the meet or profile so as in use Maintain to seal and prevent leakage.
6. nose cup system according to any one of claim 1 to 5, wherein, the barrier film and the wing or sealing sheet Generally T-shaped aperture is limited in the respiratory chamber provided by the spacer assembly.
7. nose cup system according to claim 6, wherein, the edge along its inner circumference of the barrier film is together with each wing Or the edge along its inner circumference of sealing sheet coordinates the generally T-shaped aperture of restriction together.
8. the nose cup system according to any one of claim 6 and 7, wherein, generally T-shaped aperture include upper bore portions and The lower bore portions for being typically normal to the upper bore portions and extending.
9. the nose cup system according to any one of claim 6 to 8, wherein, the wing or sealing sheet, which change, to be limited greatly The curvature and/or angle at the edge of body T-shaped hole mouthful.
10. nose cup system according to claim 9, wherein, the edge in generally T-shaped aperture is at least along the wing or sealing Thin slice is upward or is outwardly away from the respiratory chamber bending.
11. nose cup system according to any one of claim 1 to 10, wherein, the sealing area includes being provided only on Upper lip area and the subgaskets in naricorn region.
12. nose cup system according to claim 11, wherein, the barrier film is with subgaskets in the upper lip area and naricorn There is provided in region and compress sealing.
13. the nose cup system according to any one of claim 11 and 12, wherein, in the nasal bridge region and the nasal side In region, the barrier film constructs and is arranged as tensioning, and/or in the respiratory chamber that the spacer assembly is provided in use Pressure acts on the barrier film to provide sealing.
14. the nose cup system according to any one of claim 1 to 13, wherein, it is office that the nasal bridge region, which includes curvature, At least a portion of portion's saddle shape.
15. the nose cup system according to any one of claim 1 to 14, wherein, it is office that the upper lip area, which includes curvature, At least a portion of portion's saddle shape.
16. the nose cup system according to any one of claim 1 to 15, wherein, the spacer assembly include with it is described close Seal the adjacent thin-walled portion in the upper lip area in region.
17. a kind of nose cup system for being used to being applied to the air supply of direct draught into patient airway entrance, the nose cup system bag Include：
(i) spacer assembly, it includes being suitable to two sealed sealing areas in nostril around patient's nose；And
(ii) isolating construction, it makes pipe drag force be separated with sealing force；
Wherein described isolating construction includes：
Attachment area, it is positioned in the spacer assembly to receive winding pipe assembly；
Ball-and-socket and socket connector, the winding pipe assembly is operably connected to the spacer assembly by it；And
Revolving part, the winding pipe assembly is operably connected to air delivery pipe component by it so that the air delivery pipe group Part can be rotated freely through relative to the winding pipe assembly.
18. a kind of method for being used to the patient interface with 2 headband connections being fitted to patient, it includes：
Relative to the sealing area that patient's nose positions patient interface, to cause the sealing area around two nostrils；And
Make the patient interface by bending or stretching headband band in the case where band is not by below the patient ear Headband band engaged with patients head.
19. a kind of nose cup system, it includes：
Spacer assembly, it forms pumping chamber, and the spacer assembly includes (i) sealing area, and the sealing area, which is provided, to be suitable to enclose Single aperture around two nostrils of patient's nose, and (ii) first and second flexible headgear straps connector；And
Headgear assemblies, it includes a pair of side strips and rear band, and the side strip fits along the side of patient facial region in patient Extend between eye and ear and with setting to the corresponding first headband connector and second on the spacer assembly Headband connector is engaged, and to provide non-rigid or 2 points of connections of flexure to the spacer assembly, and the rear band is described Extend between side strip and fit along behind the head of patient or rear area connects along below occipital bone or lower section Close.
20. a kind of nose cup system, it includes：
Spacer assembly, it includes the nasal bridge region with two nares suitable for being sealed in patient's nose, nasal side region, nose Angular zone and the sealing area of upper lip area, the nasal bridge region are fitted along above pn and in the patient Nasal cartilages zone location and sealing below the nasal bone region of the bridge of the nose,
The sealing area includes the diaphragm seal extended around the whole periphery of the sealing area and is provided only on Lip region and the subgaskets in naricorn region.
21. a kind of nose cup system, it includes：
Spacer assembly, it includes the sealing area of two nares suitable for being sealed in patient's nose, suitable for accommodating bend pipe group The attachment area of part and the sidewall areas extended between the sealing area and the attachment area,
The sealing area has nasal bridge region, nasal side region, naricorn region and upper lip area, and
The sidewall areas is included in the region near the upper lip area of the sealing area, the sidewall areas it is described Region is included than close to the nasal bridge region of the sealing area, nasal side region and the corresponding sidewall areas in naricorn region The small wall thickness of corresponding wall thickness.
22. a kind of nose cup, it limits the respiratory chamber for the gas supply of direct draught to be sent to patient airway, the nose cup bag Include：
Blow vent, it is suitable to discharge breathable gas, and the blow vent is suitable to sufficiently rigid to avoid collapsing；
Pad, it includes sealing big envelope and headband connector；
Wherein, the sealing big envelope includes diaphragm seal and subgaskets,
Further wherein described diaphragm seal surrounds the nasal bridge region for including the pad and the nasal side region of the pad The periphery of pad extends, and the subgaskets are positioned in the upper lip area of the pad and do not extend to the pad The nasal side region of the nasal bridge region or the pad；And
Wherein, the headband connector is formed together with the side wall of the pad.
23. a kind of patient interface for being used to being applied to the air supply of direct draught into patient airway entrance, the patient interface bag Include：
(i) nose cup, there is sealing to form part for it, and the sealing forms part and constructs and be arranged as in the part of patient Sealing is formed on lip, and sealing is formed on a part of cartilage skeleton of patient's nose, the nose cup also has in use Accommodate the pumping chamber of a part for the patient's nose for including pn；And
(ii) positioning and rock-steady structure, it includes elastic or flexible strip, so as to provide relative to Frankfort horizontal direction into Effective sealing vector of angle orientation, wherein the nose cup does not include forehead support.
24. a kind of patient interface for being used to being applied to the air supply of direct draught into patient airway entrance, the patient interface bag Include：
(ii) positioning and rock-steady structure, its provide effective sealing for being angularly oriented relative to Frankfort horizontal direction to Amount, wherein, the positioning includes one suitable for extending towards the patient crown and in patient's overhead with rock-steady structure To elasticity or flexible side strip.
25. a kind of patient interface for being used to being applied to the air supply of direct draught into patient airway entrance, the patient interface bag Include：
(i) nose cup, there is sealing to form part for it, and the sealing forms part and constructs and be arranged as in the part of patient Sealing, and the formation sealing on a part of cartilage skeleton of the nose of the patient are formed on lip, the nose cup also has The pumping chamber of a part for the patient's nose for including pn is accommodated in use；And
(ii) positioning and rock-steady structure, it includes a pair of side strips, and the pair of side strip is connected to described via 2 points Nose cup, 2 points of connections include first and second non-rigid or flexure connecting element, and the positioning and rock-steady structure structure Make and be arranged as wearing or removing in the case where the side strip is without below patient ear.
26. a kind of patient interface for being used to being applied to the air supply of direct draught into patient airway entrance, the patient interface bag Include：
(ii) positioning and rock-steady structure, it provides the sealing vector being angularly oriented relative to Frankfort horizontal direction, its In, the positioning is connected with rock-steady structure offer to 2 points of the nose cup.
27. a kind of patient interface for being used to being applied to the air supply of direct draught into patient airway entrance, the patient interface bag Include：
(ii) positioning and rock-steady structure, it includes a pair of side strips, and the pair of side strip provides 2 points of connections for the nose cup And it is constructed and arranged to wear or remove in the case where the side strip is without below patient ear.
CN201710525429.6A 2011-11-15 2012-11-15 Nose cup system CN107261287A (en)
CN201280067153.7A CN104053469B (en) 2011-11-15 2012-11-15 Nose cup system
CN201280067153.7A Division CN104053469B (en) 2011-11-15 2012-11-15 Nose cup system
CN107261287A true CN107261287A (en) 2017-10-20
CN201710525429.6A CN107261287A (en) 2011-11-15 2012-11-15 Nose cup system
JP (3) JP6208142B2 (en)
NZ (2) NZ624925A (en)
CN104888328B (en) * 2009-06-02 2018-04-20 瑞思迈有限公司 Unobtrusive nasal mask
BR112013004374A2 (en) 2010-08-30 2016-05-17 Koninkl Philips Electronics Nv patient interface device and frame assembly for a patient interface device
2019-08-06 JP JP2019144683A patent/JP2019205876A/en active Pending
JP2019205876A (en) 2019-12-05
CN104606759B (en) 2018-06-15 Patient interface systems
AU2011298029B2 (en) 2015-03-05 Patient interface device with auto-adjusting cushion
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Applicant before: RESMED LTD.