CN101468222B - Nasal assembly - Google Patents

Abstract

A kind ofly comprising: framework (16) for carrying breathing gas to the nasal assembly of patient (10), it has integrally formed first link (24).Mouth of pipe assembly (18) comprises gusset or base part (48) and a pair mouth of pipe (50).At least one air induction conduit, arrives this framework for carrying breathing gas and mouth of pipe assembly supplies patient respiration.A pair second links (26), it is detachable and be pivotally connected to each first link of framework, and such as directly or by angled connector is communicated with each air induction conduit.Headgear assemblies (20) is removably connected to make framework and mouth of pipe assembly remain on the position adjusted desired by patient's face to the second link and/or angled connector with this.

Description

Nasal assembly

The divisional application of the application's to be application number be patent application of 200480004811.3.

Earlier application

This application claims the application number submitted in the U.S. respectively at December in 2003 on August 12nd, 16 days 1, on February 21st, 2003, on June 27th, 2003 and on July 22nd, 2003 and be respectively 60/529,696,60/494,119,60/448,465,60/482,872 and 60/488, the priority of the application of 810, quotes each section in full at this.

Technical field

The present invention relates to and be used for the treatment of such as, the sleep disorder of continuous positive airway pressure (CPAP) breathes the nasal assembly of (SDB) or noninvasive positive pressure ventilation (NPPV).

Background technology

Some nasal assembly being used for the treatment of SDB is designed to the nasal passage inserting patient.Aerator is adopted to provide air or other breathable gas and be transported to this nasal assembly by pliable and tough conduit.

Nasal assembly generally includes harder housing, as framework, and to be arranged on stiff case and to be configured to be inserted into a pair mouth of pipe (it can be the form of nose pad, nose fork, nasal cannula or nose spray) of the nasal passage of patient.These mouths of pipe use headgear assemblies to keep going up in position usually.Relatively hard housing and headgear assemblies adopt the adapter of some type to be connected.

The nasal assembly of a known type is 4,782 in the patent No., describes in the United States Patent (USP) (Trimbleetal) of 382.Trimble discloses a kind of nose spray assembly 20, comprises the nose spray 22 being suitable for the nose near patient and wearing, and is suitable for the harness assembly 24 that is worn over above patient head.This harness assembly 24 is designed to operationally to make nose to spray 22 to remain close to and partly in the nasal passage of patient.

This nose spray 22 is the rigid hollow plenum chamber 28 of usual Y type and the form of the separated nares elements 30 of a counter-lateral quadrents.Mutually can carry out selecting to adjust nares elements 30 in the groove of location, side to these parts 30 by rotationally these parts 30 being arranged on forced draught chamber 28 and these parts 30 being arranged on.And harness assembly 24 can carry out the cooperation that adjusts to regulate this nares elements 30 and sealing during use.Namely, keep the power fully needed for sealing directly relevant with the power of the cooperation needed for maintenance.Thus, the adjustment of assembling or the stability of nasal assembly directly affect sealing, and it seriously can affect the comfort level of patient.

Other the example being arranged on nose pad on duricrust or nasal cannula at United States Patent (USP) 5,724,965 and 6,431, open in 172.

The nose mask assemblies manufactured by Viasys, i.e. Spiritus, comprises the forced draught chamber with the nares elements that a pair close or sidepiece separates.During use, harness assembly is combined with this forced draught chamber the cooperation and the sealing that adjust this nares elements.Similar with Trimble, the cooperation of nasal assembly or the adjustment of stability directly affect sealing, and it adversely can affect the comfort level of patient.

The nose mask assemblies manufactured by InnoMed, i.e. NasalAire, comprises the forced draught chamber with the nares elements that a pair close or sidepiece separates.This nares elements is configured to engage keep nose mask assemblies on patient's face and provide sealing with the mucomembranous surface of patient's nasal cavity or internal channel.See if the patent No. is 5,533, the United States Patent (USP) of 506.

The nose mask assemblies that manufactured by StevensonIndustries (be 6,012 see the patent No., the United States Patent (USP) of 455), i.e. CPAP-Pro, comprises Dental anchor, platform and has the air supply pipe of nose liner, wherein this platform air supply pipe.Between the tooth that being designed and sized to of Dental anchor is engaged in disease population, be positioned at appropriate location to keep this assembly.

Publication number is that the PCT application of WO00/13751 discloses a kind of device, and it mouthpiece comprised by being assemblied in patients teeth navigates to the gas delivery components engaged with patient's nose.

The common problem of existing nasal assembly as above is the comfortableness of patient.Such as, the tension force that the headgear assemblies due to the shell and fork that draw rigidity towards the nose of patient applies, fork often stimulates the nose of patient.

Another problem reaches be sealed and matched with the nasal passage of patient and do not damage the comfort level of patient.

Another problem be due to fork, as its edge, contact and the stimulation to inside, patient nostril that causes.

Another problem is the stimulation to inside, patient nostril (air-flow stimulation) that the air sprayed by fork causes.

Another problem is nasal assembly relative to the adjustment of patient's nose and/or head to adapt to various shape and the angle of patient's nose.

A problem is also had to be contacting directly between sealing and the stability force affecting patient comfort.

Summary of the invention

One aspect of the present invention relates to the nasal assembly that patient can be made more comfortable.

Another aspect of the present invention relates to and can form the nasal assembly of effective sealing with patient's nasal passage.More appropriately, nasal assembly is a kind of mouth of pipe assembly, comprises and cosily can come in contact with nostril outward flange and avoid the mouth of pipe of responsive nasal cavity passage (as mucomembranous surface or inner passage).

Another aspect more of the present invention relates to a kind of tension force of headgear assemblies that do not rely on to provide the nasal assembly of the effective sealing of the nasal passage of the mouth of pipe and patient.

Another aspect more of the present invention relates to a kind of unobtrusive nasal assembly.

Another aspect more of the present invention relates to a kind of wieldy nasal assembly.

Another aspect more of the present invention relates to a kind of nasal assembly keeping headband adjustment to arrange.

Of the present inventionly relate on the other hand a kind of nasal assembly associated contributing to departing from sealing and stability force again.Specifically, an aspect of of the present present invention relate to a kind of have make to keep nasal assembly separated or at least better and for the nasal assembly of the structure that keeps the sealing force of the sealing between nasal assembly and patient's face to distinguish at the stability force of the face of patient.

Another aspect of the present invention relates to the nasal assembly that its mouth of pipe a kind of can be movable in a big way.

Another aspect of the present invention provides a kind of breathable gas of carrying to the nasal assembly of patient.This nasal assembly comprises the side frame member having main body He be arranged on each side of main body, and each side frame member comprises integrally formed first link.Mouth of pipe assembly comprises gusset or base part and a pair mouth of pipe.During use, mouth of pipe assembly with have one the main body that the nasal passage of its structure and patient's nose seals the framework of the mouth of pipe combined combined.A pair air induction conduit is configured in conveying breathing gas to this framework and mouth of pipe assembly for patient respiration.A pair second links removably and be pivotally connected to each first link of framework.Second link is by angled connector and air induction conduit UNICOM.Headgear assemblies and at least one second link and angled connector are removably connected to make framework and mouth of pipe assembly remain on the desired position adjusted at patient's face.

By below in conjunction with as description a part and illustrate that the accompanying drawing of principle of the present invention is described in detail by embodiment, other aspects of the present invention, characteristic and advantage will be more clear.

Accompanying drawing explanation

It is more easy that accompanying drawing makes the understanding of the embodiments of the present invention.In accompanying drawing:

Fig. 1 is the fragmentary, perspective view of the nasal assembly being according to an embodiment of the invention arranged on patient head and engaging with patient's nasal passage;

Fig. 2 is the front view of the framework of the nasal assembly shown in Fig. 1 for clarity sake eliminating some parts;

Fig. 3 is the sectional view of the framework shown in Fig. 2;

Fig. 4 is the side view of the framework shown in Fig. 2;

The front view of the mouth of pipe assembly that Fig. 5 is the nasal assembly shown in Fig. 1;

Fig. 6 is the front sectional view of the mouth of pipe assembly shown in Fig. 5;

Fig. 7 is the side view of the mouth of pipe assembly shown in Fig. 5;

Fig. 8 is the side sectional view of the mouth of pipe assembly shown in Fig. 5;

The perspective view of the air induction conduit that Fig. 9 is the nasal assembly shown in Fig. 1 and the embodiment of headband coupling assembling;

The rear view that Figure 10 is the air induction conduit shown in Fig. 9 and headband coupling assembling;

The perspective view of another embodiment that Figure 11 is the air induction conduit and headband coupling assembling that are applicable to the nasal assembly shown in Fig. 1;

The rear view that Figure 12 is the air induction conduit shown in Figure 11 and headband coupling assembling;

The side view of the head upper air catheter path that Figure 13 is the nasal assembly shown in Fig. 1;

The side view in air induction conduit path under the jaw that Figure 14 is the nasal assembly shown in Fig. 1;

Figure 15 is the perspective view of the adapter for arranging air induction conduit path on patient's head;

Figure 16 is the perspective view of the adapter for arranging air induction conduit path under patient's jaw;

Figure 17 is the perspective view of the flow generator connector for the nasal assembly shown in connection layout 1 and pressure source;

Figure 18 is the side view of the embodiment of the headband parts for the nasal assembly shown in Fig. 1;

Figure 19 is the schematic diagram of patient's nose with substantially flat wing angle;

Figure 20 is the schematic diagram of patient's nose with substantially precipitous wing angle;

Figure 21 is the schematic diagram of the embodiment of the seal area of the mouth of pipe;

Figure 22 is the schematic diagram for illustration of general nostril ratios opening/entrance;

Figure 23 is the schematic diagram of the embodiment for illustration of the main standard shaft calculating the mouth of pipe;

Figure 24 is the schematic diagram of the embodiment for illustration of the short standard shaft calculating the mouth of pipe;

Figure 25 is the fragmentary, perspective view of another embodiment of the nasal assembly being installed to patient head and being combined with the nasal passage of patient;

The preceding office portion perspective view that Figure 26 is the nasal assembly shown in Figure 25;

Figure 27 is the sectional view of the nasal assembly shown in Figure 25;

Figure 28 is the front perspective view of the framework of the nasal assembly shown in Figure 25;

Figure 29 is the rear view of the framework shown in Figure 28;

The preceding office portion perspective view of the half of the mouth of pipe assembly that Figure 30 is the nasal assembly shown in Figure 25;

Figure 31 is the side cross-sectional view of the nasal assembly shown in Figure 30;

The perspective view of the air induction conduit that Figure 32 is the nasal assembly shown in Figure 25 and the embodiment of headband connector assembly;

The rear view that Figure 33 is the air induction conduit shown in Figure 32 and headband connector assembly;

Figure 34 for there is the lever arm of diplopia Figure 32 shown in air induction conduit and the sectional view of headband connector assembly;

Figure 35 is the perspective view of the flow generator connector for connecting nasal assembly shown in Figure 25 pipe used and pressure source;

Figure 36 is the side view in the path of the air induction conduit for illustration of the nasal assembly shown in 25;

Figure 37 for be arranged on patient head Figure 25 shown in the side view of nasal assembly;

Figure 38 is for illustration of being arranged on patient head and the perspective view of another embodiment of the nasal assembly be combined with the nasal passage of patient;

The air induction conduit that Figure 38 B is the nasal assembly shown in Figure 38 and the perspective view of headband adapter;

Figure 39 is the perspective view of the nasal assembly shown in Figure 38;

Figure 40 is the perspective view of the framework of the nasal assembly shown in Figure 38;

The perspective view of the mouth of pipe assembly that Figure 41 is nasal assembly shown in Figure 38;

Figure 42 is for being arranged on the mouth of pipe assembly perspective view shown in the Figure 41 on the framework shown in Figure 40;

Figure 43 is the sectional view of the nasal assembly shown in Figure 38;

Figure 44 is the side cross-sectional view of the nasal assembly shown in Figure 38;

Figure 45 for be installed to patient head Figure 38 shown in the side view of nasal assembly, demonstrate two air inlets configurations;

Figure 46 tries hard to for the signal of some power produced when the nasal assembly shown in Figure 38 is installed to patient head;

Figure 47 is the sectional view of the embodiment of the air induction conduit be combined with the embodiment of the angled connector for carrying breathing gas;

Figure 47 B is the perspective view of another embodiment of air induction conduit;

Figure 48 is the sectional view with another embodiment of the air induction conduit for carrying another embodiment of the flow generator connector of breathing gas to be combined;

Figure 48 B is the perspective view of another embodiment of air induction conduit;

Figure 49 is the perspective view of the embodiment of the air induction conduit of the nasal assembly shown in Figure 38;

Figure 50 is the side view of the nasal assembly shown in the Figure 38 before being combined with the nasal passage of patient;

Figure 51 is the front view of the nasal assembly (cross section) shown in Figure 38 of being combined with the nasal passage of patient;

Figure 52 is the perspective view of another embodiment of the nasal assembly being arranged on patient head and being combined with the nasal passage of patient, shows two kinds of air inlet configurations;

Figure 53 is the perspective view of the nasal assembly shown in Figure 52;

The sectional view of mouth of pipe assembly of Figure 54 for being combined with the framework of the nasal assembly shown in Figure 52;

The air induction conduit that Figure 55 is the nasal assembly shown in Figure 52 and the perspective view of headband adapter;

The air induction conduit that Figure 56 is the nasal assembly shown in Figure 52 and the sectional view of headband adapter;

Figure 57 is the side cross-sectional view of nasal assembly shown in the Figure 52 that will be combined with patient's nasal passage;

Figure 58 is the front view of the nasal assembly (cross section) shown in Figure 52 of being combined with the nasal passage of patient;

Figure 59 is the perspective view of another embodiment of the nasal assembly being arranged on patient head and being combined with the nasal passage of patient;

Figure 60 is the perspective view of the nasal assembly shown in Figure 59 of unloading from patient head;

The decomposed figure that Figure 61 is the nasal assembly shown in Figure 59, for illustration of framework, mouth of pipe assembly and clip thereof;

Figure 62 is the perspective view of the part of the nasal assembly shown in Figure 59, for illustration of the clip be combined with framework, mouth of pipe assembly;

Figure 63 is the fragmentary perspective view of the nasal assembly shown in Figure 59, for illustration of framework, combination between mouth of pipe assembly and clip;

Figure 64 is the partial section of the part of the nasal assembly shown in Figure 59, for illustration of framework, combination between mouth of pipe assembly and clip;

Figure 65 is the top view of the part of the nasal assembly shown in Figure 59;

Figure 65 A is the partial enlarged view of the liner shown in Figure 65;

Figure 65 B is the schematic diagram of the distribution of power according to an aspect of the present invention;

Figure 66 is the rearview of the part of alternative embodiment of nasal assembly framework being described, combining between mouth of pipe assembly and clip;

Figure 67 is the rearview that framework, combination between mouth of pipe assembly and another embodiment of clip are described;

Figure 68 is for illustrating the perspective view that the nasal assembly shown in Figure 66 is combined with the framework shown in Figure 66;

Figure 69 is for illustrating the perspective view that the nasal assembly shown in Figure 67 is combined with the framework shown in Figure 67;

Figure 70 is for illustrating the perspective view that the clip shown in Figure 66 is combined with the framework shown in Figure 66 and mouth of pipe assembly;

Figure 71 is for illustrating the perspective view that the clip shown in Figure 67 is combined with the framework shown in Figure 67 and mouth of pipe assembly;

The perspective view of the second link that Figure 72 is the nasal assembly shown in Figure 59;

Figure 73 is the sectional view of the part of the nasal assembly shown in Figure 59, for illustration of framework, combination between the second link and angled connector;

Figure 74 is the perspective view of the angled connector of the nasal assembly shown in Figure 59;

Figure 74 B is similar to Figure 74 but the different perspective view of angle;

Figure 75 is the side view of the angled connector shown in Figure 74;

Figure 76 is the sectional view of the angled connector shown in Figure 74;

Figure 76 A is depicted as another embodiment of the present invention;

Figure 76 B is the exploded view of Figure 76 A;

Figure 76 C is depicted as the second link of assembly shown in Figure 76 A;

Figure 76 D is depicted as the angled connector for assembly in Figure 76 A;

Figure 77 is the perspective view of the flow generator connector of the nasal assembly shown in Figure 59;

Figure 78 is the sectional view of the flow generator connector shown in Figure 77;

Figure 79 is the sectional view of the embodiment of the air induction conduit of the nasal assembly shown in Figure 59;

The perspective view of the headband bar that Figure 80 is the headgear assemblies of the nasal assembly shown in Figure 59;

Figure 81 is for illustrating the perspective view of the combination between headband bar (Figure 80) and angled connector (Figure 74);

Figure 82 is the sectional view along the line 82-82 in Figure 81;

The perspective view that the headband that Figure 83 is the nasal assembly shown in Figure 59 is buckled;

Figure 84 is the perspective view of the nasal assembly shown in Figure 59, for illustration of the path of headgear assemblies;

Another perspective view that Figure 85 is the nasal assembly shown in Figure 59, for illustration of the path of headgear assemblies;

Figure 86 is the top view of the nasal assembly according to embodiment of the present invention structure;

Figure 87 is the side view of the nasal assembly shown in Figure 86;

Figure 88 is the upward view of the nasal assembly shown in Figure 86;

The exploded view of the nasal assembly part shown in Figure 89 Figure 86;

Figure 90 is the fragmentary perspective view of the embodiment of nasal assembly;

Figure 91 is the top view of headband adapter according to an alternative embodiment of the invention;

Figure 92 is the perspective view of the upper part of the centre pipe of the nasal assembly shown in Figure 90;

Figure 93 is the top view of the upper part of the centre pipe shown in Figure 92;

Figure 94 is the perspective view of the lower part of the centre pipe of the nasal assembly shown in Figure 90;

Figure 95 is the upward view of the lower part of the centre pipe shown in Figure 94;

Figure 96 is the perspective view of the air induction conduit of the nasal assembly shown in Figure 86;

The schematic diagram of the Y type Inlet gas connector that Figure 96 A is the nasal assembly shown in Figure 86;

Figure 97 is the perspective view of the Inlet gas connector of the nasal assembly shown in Figure 86;

Figure 97 A is in the schematic diagram of the nasal assembly as shown in Figure 86 of the primary importance near patient's nasal passage for the mouth of pipe;

Figure 97 B is in the schematic diagram of the nasal assembly as shown in Figure 86 sealing the second position combined with patient's nasal passage for the mouth of pipe;

Figure 98 is the perspective view of another embodiment of nasal assembly;

The mouth of pipe of Figure 99 for the nasal assembly such as shown in Figure 98 and the enlarged perspective of gusset portion;

Figure 100 is the perspective view of the amplification of the air induction conduit of the nasal assembly such as shown in Figure 98;

Figure 101 is arranged on the front perspective view of the nasal assembly as shown in Figure 98 of patient head for illustrating;

Figure 102 is arranged on the rear view of the nasal assembly as shown in Figure 98 of patient head for illustrating;

Figure 103 is for illustrating the front perspective view of the nasal assembly as shown in Figure 98 be combined with patient's nasal passage;

Figure 104 is for illustrating the side perspective view of the nasal assembly as shown in Figure 98 be combined with patient's nasal passage;

Figure 105 is for illustrating the side view of the nasal assembly as shown in Figure 98 be combined with patient's nasal passage;

Figure 106 is for illustrating the front perspective view of the nasal assembly as shown in Figure 98 be combined with patient's nasal passage;

Figure 107 is the perspective view of another embodiment of the nasal assembly being arranged on patient head;

Figure 107-1 is the perspective view of another embodiment more of the present invention;

Figure 107-2 is the perspective view of another embodiment of the present invention;

Figure 107 A-107C is for illustration of another embodiment of the present invention;

Figure 107 D and 107E is for illustration of another embodiment again of the present invention;

Figure 107 F is for illustration of another embodiment of the present invention;

Figure 107 G and 107H is for illustration of another embodiment of the present invention;

Figure 107 I is for illustration of another embodiment again of the present invention;

Figure 107 J is for illustration of another embodiment again of the present invention;

Figure 107 K and 107L is for illustration of another embodiment again of the present invention;

Figure 107 M-107Q is for illustration of the sectional view of the optional mouth of pipe according to the present invention;

Figure 107 R is similar to the perspective view of two mouths of pipe of the mouth of pipe as shown in Figure 107 Q for illustrating;

Figure 108 is the perspective view of another embodiment again of nasal assembly;

Figure 108 A and 108B is depicted as catheterostat according to an embodiment of the invention;

Figure 108 C is depicted as another catheterostat according to an embodiment of the invention;

Figure 109 is depicted as the isometric view of the part of the nasal assembly shown in Figure 108;

Figure 110 is the sectional view of the part according to nasal assembly of the present invention;

Figure 110-1 and 110-2 is the sectional view according to blow vent of the present invention;

Figure 110 A is the sectional view of the partial enlargement in the left side of Figure 110;

Figure 110 B is the sectional view of the partial enlargement on the right side of Figure 110;

Figure 111 is the decomposition view of the interface of sealing ring and elbow swivel according to an embodiment of the invention;

Figure 112 is the partial section of the part of the mask assemblies shown in Figure 108;

Figure 113 is depicted as the another embodiment of the present invention with overall connector and black box;

Figure 114-126 is depicted as another embodiment more of the present invention;

Figure 127-130 is depicted as another embodiment again of the present invention;

Figure 131-133 is depicted as another elbow of turning according to an embodiment of the invention; And

Figure 134-135 is depicted as another embodiment of the present invention.

Detailed description of the invention

Here is the description of several illustrated main embodiment of the present invention.Each illustrated main embodiment comprises available feature in other embodiments, and this it will be apparent to those skilled in the art that.

First example embodiment

Figure 1 shows that there is the embodiment of conveying breathable gas to the nasal assembly 10 of the structure of the nasal passage 12 of patient's nose 14.This nasal assembly 10 comprises framework 16 and mouth of pipe assembly 18 that is fixable or that be removably connected with this framework 16.Headgear assemblies 20 (see Figure 18) be preferably detachably connected on coupling assembling 22 with make framework 16 and mouth of pipe assembly 18 to remain in patient face desired by the position adjusted to.Air induction conduit (such as, seeing Figure 49) is also be detachably connected on framework 16 by coupling assembling 22 to carry in breathable gas to framework 16 and mouth of pipe assembly 18 for patient respiration.Headgear assemblies 20 and air induction conduit are detachably connected on framework 16 by air induction conduit and headband coupling assembling 22.This coupling assembling 22 comprises the first link 24 (see Fig. 2 and 3) of being provided by framework 16 and is suitable for the second link 26 of being removably combined with the first link 24.This second link 26 is detachably connected to headgear assemblies 20 and air induction conduit, after will further describe.

As in Figure 2-4, framework 16 comprises main body 28, it is arranged central opening 30 to hold mouth of pipe assembly 18.This framework 16 also comprises the side frame member 32 of each side being arranged on main body 28, and this side frame member 32 main body 28 shape that is preferred and framework 16 is in aggregates.In the present embodiment, framework 16 is the rigidity or semirigid structure made with polymeric material.But framework 16 can be semirigid to allow framework 16 to have adaptability relative to the face of patient in use.Framework 16 also can be that semirigid structure is to form flexure adaptively at the certain area of framework 16 on certain area.

Each side frame member 32 comprises the first link 24 with its formation entirety.As shown in Figures 2 and 3, the first link 24 comprises linkage section 34 and guides section 36.This linkage section 34 and the second link 26 interlock to prevent the second link 26 and the first link 24 axle from departing from.Section 36 is guided to be configured to allow to adjust the second link 26 relative to the first link 24 threaded shaft circumference selectively when the second link 26 ratchet is combined/fixes in use to keep " locking " in adjusted position.

Specifically, the linkage section 34 of each side frame member 32 comprises a series of groove or the slit 37 that linkage section 34 are divided into some pliable and tough arms 38 with resilience, and arm 38 is radial inwardly with to external extension.Each arm 38 arranges ribbed part 40 at its free end.During use, the ribbed part 40 of the plurality of arm 38 is suitable for being combined with the appropriate section of the second link, interconnects to make the first and second links 24,26.Such as, the first and second link 24,26 mutual linkings, surprisingly to depart to preventing the second link 26 and the first link 24 during the second link 26 in the power making it axially depart from the first link 24.And the first and second links 24,26 cooperatively interact to reach good sealing.

The guide section 36 of each side frame member 32 comprises multiple tooth 42.This tooth 42 selectively can be meshed (see Fig. 9 and 10) with the tooth 44 be arranged on the second link 26.Consequently, the second link 26 can be turned to the desired position relative to framework 16.During use, the second link 26 and engage between the selected tooth 42 being arranged on the guide section on appropriate location and locks relative to the first link 24 by tooth 44 on the second link 26 rotationally, thus locks relative to framework 16.In order to adjust, user manually can change the position of tooth 66 and tooth 42.

According to an embodiment, arrange and guide the tooth 42 of section 36 so that when predetermined moment is added to the second link 26, tooth 42 automatically afterburning make the tooth 44 of the second link 26 outwards to make the second link 26 rotate until moment removal and tooth 42 engages again with the tooth 44 of the second link 26.Therefore the second link 26 can rotate adjustment relative to framework 16 or guide in predetermined angle.The angle of rotatable adjustment can change by changing the number and position that guide the tooth 42 in section 36 as required.Adjustment angular range enables patient relative to the position of patient's nose adjustment mouth of pipe assembly 18.In order to reach best located, in a preferred embodiment, the mouth of pipe assembly 18 part mold pressing silicone resin sheet that a piece is connected on framework 16 is formed.

In this example embodiment, adjustment or guide operation orthogonally with attended operation to reduce to minimum with the probability the second link 26 and the first link 24 departed from.

As shown in Figure 4, main body 28 comprises the relative sidewall 46 forming the central opening 30 holding mouth of pipe assembly 18.For the part corresponding to mouth of pipe assembly 18, this sidewall 46 combines that mouth of pipe assembly 18 and framework 16 are bonded to each other, after will further describe.

As viewed in figures 5-8, mouth of pipe assembly 18 comprises base part 48 and a pair mouth of pipe 50 be connected thereto.Base part 48 has and is suitable for sealing with the sidewall 46 of framework 16 sidewall 52 and center wall 54 that combine.This line up respectively has Part I 56 and Part II 58.Part I 56 is connected on the center wall 54 of base part 48, with the gas outlet conducting on center wall 54.During use, nasal passage 12 sealed junction of Part II 58 and patient's nose 14 merges and makes to seal between the nasal passage 12 of nasal assembly 10 and patient.When mouth of pipe assembly 18 is connected on framework 16, mouth of pipe assembly 18 is formed and guides breathing gas to arrive the conduit of patient's nasal cavity by a pair mouth of pipe 50 together with framework 16.

In this example embodiment, mouth of pipe assembly 18 adopts the hasp that can simply assemble, and as snap fit, promotes cooperation or stretches cooperation, being detachably connected on framework 16.Such as, the sidewall 52 of base part 48 can comprise rib or groove/recess, and it can adopt the recess/rib on each sidewall of snap fit and framework 16 to interlock.But mouth of pipe assembly 18 can adopt other modes be applicable to be detachably connected on framework 16, such as, the friction that prior art is known or interference engagement and/or slip feather assembling.Or such as, mouth of pipe assembly 18 is connected on framework 16 rigidly by binding agent or securing member.And mouth of pipe assembly 18 can be in aggregates with framework 16 shape, or mold pressing.That is, mouth of pipe assembly and framework can be made into there is different-thickness and hardness overall structure to increase rigidity.

Preferably, mouth of pipe assembly 18 is flexible, thus allow between mouth of pipe assembly 18 and framework 16 can relative motion, to increase comfort level and to adapt to the change of patient's facial features.And, base part 48 expansible and shrink to change the distance between framework 16 and this line up 50, after will further describe.That is, center wall 54 preferably makes from common flat malformation to common warp architecture, such as, can expand, thus the mouth of pipe 50 is shifted to the nose of patient when introducing gas-pressurized in use with elastic and/or soft material.Other parts of base part 48, such as, sidewall 52, also deformable/expansion.

In this example embodiment, base part 48 has common Os Canitis (dog-bone) shape.Such as, but base part 48 can be any suitable shape, comprises the shape avoided with patient face contacting sensitive portions, notched base shape, to prevent the barrier film of contact patient or to make to minimize the contact pressure at these positions.

As shown in Fig. 1,5 and 6, Part II 58 profile of nasal assembly has the shape (such as, taper, taper shape, truncated cone shape etc.) of another part of the part sealing (region near such as nostril peristoma) on the downside of nostril and the nasal passage entering patient in use.But the mouth of pipe can be such as, nose fork-shaped, sleeve pipe or nose spray form, and can in any suitable manner with nasal passage 12 sealed engagement.Such as, the mouth of pipe 50 can in nasal passage, against nasal passage, combination in nasal passage environmental seal or several mode.The interior anatomical features that the mouth of pipe 50 can make profile and patient's nose matches.In addition, the mouth of pipe of different size and/or shape can be provided, e.g., little, in and the large mouth of pipe to adapt to the scope of patient's nose.

In the exemplary embodiments, the Part I 56 of the mouth of pipe 50 has the cross section reduced and moves relative to base part 48 to allow the mouth of pipe compared with Part II, and thus moves relative to framework 16, to increase comfort level and to adapt to the change of patient's face feature.

In one embodiment, nasal assembly 10 adopts the mouth of pipe customized according to patient, and it is removably mounted on base part 48 or framework 16.In preferred mode, the basic soft polymeric material of the mouth of pipe is made, as silicone elastomer.By the nose of first at the scene or at a distance scanning patient, then utilize these data to manufacture interface, as toolmaker, make the mouth of pipe of the uniqueness matched with the nose of each patient.Scanning can adopt the method for noncontact or contact.Noncontact, such as, take pictures, or by utilizing the physical contact of detector, or by collecting the intranarial impression of the desired interface contacted.Once make a pair suitable mouth of pipe, user just can be sent to coordinate with patient.The advantage of the shape made in advance or customize is that cross section maximizing is to reduce flow resistance.In addition, the use of ready-made shape can improve comfort level and the material increasing flintiness can be adopted if the plastics of semihard are to prevent distortion better, thus the nozzle distortion in patient nostril is minimized.In addition, owing to being connected with base part 48, adopting the plastics of rigidity to allow thin segment and allow the mouth of pipe soft, such as, base part 48 is soft and adapts to.

In the exemplary embodiments, the mouth of pipe 50 and base part 48 are with deformable in aggregates with expandable material mold pressing.The mouth of pipe 50 and base part 48 can with softness, material such as the silicones of skin-compatible makes.Such as, the mouth of pipe 50 and base part 48 can utilize prior art known injection molding, compacting and/or transfer moudling make.

But the mouth of pipe 50 and base part 48 can make by any applicable material and any suitable method.Such as, base part 48 and the mouth of pipe 50 can separately make and of, and such as binding agent and/or mechanical fasteners are for good and all connected to each other, or base part 48 and the mouth of pipe 50 can separately make and removably be connected to each other.

As previously mentioned, the second link 26 arranges and is used for removably headgear assemblies 20 being connected with framework 16 with air induction conduit.As shown in Figures 9 and 10, each second link 26 is by such as, the holistic polymer block (as silicones) that injection molding, pressing mold and/or blow moulding are made.Each second link 26 comprises the main body of previous section 60 and aft section 62.Previous section 60 and the first link 24 be arranged on framework 16 interlock and aft section 62 is detachably connected to headgear assemblies 20 and air induction conduit.As shown in Figure 1, previous section 60 and aft section 62 mutually at angle so that when using the second link 26 adapt to the profile of patient face.

Specifically, previous section 60 provides common cylindrical conduit 64, and within it surface has groove 66.This groove 66 is suitable for the ribbed part 40 of the multiple arms 38 on acceptance first link 24.That is, when the first link 24 inserts in the conduit 64 of the second link 26, multiple arm 38 is mutually stressed.Once the ribbed part 40 of arm 38 arrives groove 66, arm 38 outwards springs in groove 66 to make joint interlocked with one another between the first and second links 24,26.In order to make the second link 26 depart from framework 16, patient is pulled outwardly this second link 26 vertically from framework simply by enough power and discharges from groove 66 to make this ribbed part 40.

Previous section 60 also provides the cross bar 68 of the tooth arranging the second link 26.As mentioned above, tooth 44 engages to allow the second link 26 selectively to rotate adjustment relative to the first link 24 with the tooth 42 of multiple first link 24, and therefore rotates adjustment relative to framework 16.The work that this cross bar 68 plays flat spring engages in order to the tooth 42 of elastic biasing tooth 44 with the first link 24.

As shown in Figures 9 and 10, the aft section 62 of the second link 26 comprises cross bar 70, and it forms the band of opening for headgear assemblies 20 through also removably connecting.But this cross bar 70 can be arranged provides one with upper shed to connect headgear assemblies 20.Such as, as shown in FIG. 11 and 12, this second link 26 ' comprises cross bar 71, it is arranged a pair band of pair of openings for headgear assemblies 20 through also removably connecting.

This aft section 62 also provides the elongate catheter 72 being suitable for being connected to the air induction conduit of framework 16 and mouth of pipe assembly 18 with conveying breathing gas.In the exemplary embodiments, the conduit 72 of aft section 62 and the conduit 64 of previous section 60 have different shape of cross sections to be easy to be connected to this air induction conduit.But the conduit 64,72 of front and back part 60,62 can have similar cross-sectional area respectively.

The path of one of one of Figure 13 and 14 first pair of air induction conduit 74 being depicted as nasal assembly 10 and second pair of air induction conduit 76.The first end of first pair of conduit 74 is connected to each conduit 72 of the second link 26.Second end of first pair of conduit 74 is connected to each first end of second pair of air induction conduit 76.Second end of second pair of air induction conduit is connected to the source of the gas providing pressurized breathable gas.As a result, gas-pressurized enters into framework 16 and base part 48 by first, second to air induction conduit 74,76, and by the mouth of pipe 50 for patient respiration.As shown in Figure 1, framework 16 comprises from framework 16 steam vent 78 a little outwardly and comprises discharge CO ₂a series of openings.

As shown in figure 13, first, second can extend up to the above-head of patient to air induction conduit 74,76 path.Such as, in fig. 13, the length of first pair of air induction conduit 74 can be approximately 120-160mm, preferably about 140mm, and the length of second pair of air induction conduit 76 can be approximately 160-200mm, preferably about 180mm.But also can use other sizes.In the exemplary embodiments, the first pair of air induction conduit 74 becomes about 30 ° of angles with level and second pair of air induction conduit 76 becomes about 90 ° of angles with level, or with first pair of about 60 ° of angle of air induction conduit 74 one-tenth.But first, second can have any applicable length to air induction conduit 74,76 and can adopt the path extended up to above patient head in any way.

Or as shown in figure 14, first, second can downwards below patient's lower jaw to air induction conduit 74,76.Such as, in fig. 14, the length of first pair of air induction conduit 74 can be about 40-80mm, preferably about 60mm, and the length of second pair of air induction conduit 76 can be about 180-220mm, preferably about 200mm.In the exemplary embodiments, first pair of air induction conduit 74 becomes approximately-20 ° to 40 ° angles with level, preferably become about 30 ° of angles with level, and second pair of air induction conduit 76 becomes approximately-90 ° of angles with level, or-hexagonal angle about with first pair of air induction conduit 74 one-tenth.But first and second pairs of air induction conduits can have any applicable length and can adopt the path extending up to patient head in any way.

Figure 15 and Figure 16 shows the schematic diagram of the adapter of each first end for the second end of first pair of air induction conduit 74 being connected to second pair of air induction conduit 76.Adapter 80 shown in Figure 15 be suitable for extending up to path above patient head first, second to air induction conduit 74,76 at angle.Adapter 82 shown in Figure 16 be suitable for path down to first, second below patient's lower jaw to air induction conduit 74,76 at angle.

Figure 17 shows the flow generator connector 84 for the second end of second pair of air induction conduit 76 and pneumatic supply being interconnected.Specifically, flow generator connector 84 comprises first conduit 86 of the one end being connected to second pair of air induction conduit 76 and is connected to second conduit 88 of the other end of second pair of air induction conduit 76.Flow generator connector 84 comprises the 3rd conduit 90 being connected to the conduit be connected with pneumatic supply.This joint among three members 90 can comprise the union joint of rotation mechanism or flexibility to allow the relative movement between flow generator connector 84 and the conduit relevant to pneumatic supply.

In the exemplary embodiments, air induction conduit 74,76 provides single air current.But, this conduit 74,76, link 24,26, and adapter 80,82,84 can provide the gas channel of one or more.

This air induction conduit 74,76 can make by any applicable mode.Such as, this air induction conduit 74,76 can be that extruding forms and this conduit can be that injection molding forms.In addition, this air induction conduit 74,76 can with any applicable polymeric material, as silicones or thermoplastic plastics elastic body, such as make.

In addition, this air induction conduit 74,76 can be formed with pipe that is resistance to deformation, anti-crushed and not kinking, and if the patent No. is 6,044, the U.S. Patent Publication of 844, it is incorporated herein by reference in full.

This air induction conduit 74,76 and each link 24,26 and/or adapter 80,82,84 can use friction-type fit, machanical fastener, binding agent, common mode pressure, embedded mould, or any other mode be applicable to keeps.

During use, gas-pressurized is inputted by the adapter 90 of flow generator connector 84 and is proceeded in first group of air induction conduit 74 by second group of air induction conduit 76, then enters into two side frame member 32 of framework 16.Gas enters base part 48 and the mouth of pipe 50 by framework 16, is then input to the nasal passage 12 of patient.Discharge from the nose expellant gas of patient by the steam vent 78 be located at framework 16.

Headgear assemblies 20 be detachably connected on the second link 26 of being connected with framework 16 with make framework 16 and mouth of pipe assembly 18 can remain in patient face desired by the position adjusted to.As shown in figure 18, headgear assemblies 20 comprises two lateral parts 92, makes aft section 94 connect this lateral parts 92.Each lateral parts 92 comprises side band 96.The aft section 94 be connected with two lateral parts 92 comprises the upper band 98 crossing the patient crown and the rear band 100 walking around patient's back of head.But headgear assemblies can be fixedly connected on framework.

Each side band 96 is detachably connected on the second link 26.Specifically, band 96 end, each side has the width of reduction, this side band 96 can be reeled and be arranged on the cross bar 70 of the second link 26.This side band 96 is fastened on each cross bar 70 can adopt hook and annular material, as .Thus, side band 96 can carry out accommodation relative to the second link 26.

Upper band 98 and rear band 100 are detachably connected on side band 96 by the bracelet 102 be arranged on side band 96.This bracelet 102 useful binders, stitching and/or other known modes are bonded on side band 96.In the exemplary embodiments, bracelet 102 comprises single cross bar and combines to make upper band 98 and rear band 100.But, can adopt any other Fastener structure be applicable to that band 98 and rear band 100 are interconnected with side band 96.

The band 96,98 and 100 of headgear assemblies 20 can be made with soft and pliable and tough composite.Such as, band 96,98 and 100 can comprise the materials at two layers of the one deck be made up of textile material and another layer be made up of polymer.In addition, headgear assemblies 20 can comprise one or more rigid member be connected thereto to increase the rigidity of headgear assemblies in specific plane and direction, and when contributing to using, nasal assembly 10 is stabilized in patient head.

In addition, headgear assemblies 20 can comprise multi-ribbon to support that nasal assembly 10 is in patient head.Such as, as shown in FIG. 11 and 12, each bar side band 96 can comprise a pair band for the second link 26.Or headgear assemblies 20 can be made into the structure of one.

As shown in Figure 1, base part 48 stretches out to provide extra surface area or bottom area from framework 16.When the air of pressurized enters framework 16, base part 48 is inflated, and it moves the mouth of pipe 50 and makes itself and patient's nasal passage 12 sealed engagement.Such as, base part 48 makes the mouth of pipe move and patient's nasal passage 12 sealed engagement along the expansion in direction, nostril.

In addition, a part of sealing force can be provided by the Part I 56 of the nostril prestrain withstanding patient as spring.

That is, the base part 48 of this structure expansible and shrink to change the distance between framework 16 and the mouth of pipe 50.Base part 48 makes the mouth of pipe 50 in the mouth of pipe 50 and the close primary importance of patient's nasal passage 12 and the mouth of pipe 50 moves and move between the second position of patient's nasal passage 12 sealed engagement.Specifically, when unaerated, the mouth of pipe 50 and patient's nasal passage 12 are separated or gentle touchdown.When nasal assembly 10 is subject to gas pressure, base part 48 is inflated and the mobile mouth of pipe 50 makes itself and patient's nasal passage 12 sealed engagement, thus makes to be formed between nasal assembly 10 and the nasal passage of patient to seal.Along with air pressure increases, the power be added on the downside of nasal cavity is increased by base part 48.

Base part 48 provides extra surface area or bottom area for framework 16, its correspondingly line up 50 provide extra power to increase the leakage efficiency of the mouth of pipe 50.That is, base part 48 arranges and locates to make the nasal contact of the mouth of pipe 50 and patient.Power on patient's nose or pressure and: the pressure in (a) framework 16 and mouth of pipe assembly 18; Surface area extra on (b) base part 48; And/or (c) is from the mouth of pipe 50 or base part 48, comprise center wall 54 and the Part I 56 of base part 48, material and geometry formed preloading proportional.Thus, the surface area of base part 48 can change, such as, to change the power on patient's nose of being added to or pressure.

The sidewall 52 of base part 48 can be used as spring structure to provide component by the mouth of pipe 50 in patient face.This power carries out adapt by the thickness adjusting sidewall 52.In addition, the additional surface that the thickness of sidewall 52 can provide in conjunction with base part 48 is amassed and is changed.Thus, the power that base part 48 provides provides the effective sealing power with the nasal passage 12 of patient together with air pressure.

The tension force of the headgear assemblies required for base part 48 makes suitably to be sealed reduces.That is, the sealing force being added to patient's nose can be provided by base part 48, preloading and/or air pressure, instead of is provided by the tension force of headgear assemblies 20.This improves comfort level and the sealing characteristics of patient.

Therefore, the contact making the mouth of pipe 50 only close or very slight with the nose of patient is it is desirable to when adjusting headgear assemblies 20.By this way, base part 48 reality not pressurized.Do not need fully contact during use and seal.

Base part 48 also provides the joint of the decoupling between framework 16 and the mouth of pipe 50, thus allows relatively to move between nasal assembly 10 and patient face.As a result, the mouth of pipe 50 can adapt to the various little change of patient's nose shape facility and not produce unsuitable power, and can solve the little motion of nasal assembly 10 relative to patient's nose in use, and sealing of remaining valid.

In addition, coupling assembling 22 comprises the first and second links 24,26, makes the position of the mouth of pipe 50 be easy to adjust relative to the nose of patient.Specifically, patient can make framework 16 rotate to adjust the position of the mouth of pipe 50 relative to headgear assemblies 20.

In addition, base part 48 needs not to be above-mentioned single base form, and can have other structure.Such as, base part 48 can be the form of the base part of two and more arranged in sequences.

As illustrated in Figures 5 and 6, the end of base part 48 is in certain angle and is in certain angle to make the mouth of pipe 50 be connected thereto.This angle, also can be referred to as wing angle, is adjustable to the nose adapting to difform patient.Such as, mouth of pipe assembly as illustrated in Figures 5 and 6 has scope at the wing angle of 135-155 °, preferably at about 145 °, to adapt to substantially flat nose (see Figure 19).Or the scope at wing angle can at 70-90 °, preferably at about 80 °, to adapt to basic point or precipitous nose (see Figure 20).But this wing angle can have any suitable size to adapt to the nose of any shape.The movement of the mouth of pipe contributes to being applicable to steeper nose.

As shown in figure 21, the seal area of the mouth of pipe 50 can extend from the only about half of height of the mouth of pipe with an angle.In the exemplary embodiments, the height of the mouth of pipe 50 is about 9mm.But the mouth of pipe 50 can have any applicable height and can provide any suitable seal area.If (wish that deleting Figure 21 from this application please advise.)

The mouth of pipe 50 suitably separates each other on base part 48.The size of the distance separated based on the mouth of pipe 50 and the free space of base part 48.

The size of the mouth of pipe 50 is based on the girth in patient nostril.In one embodiment, ellipse ratio can be used for the geometry (see Figure 22) determining the mouth of pipe.Such as, ellipse ratio 0.7 (meansigma methods+1 standard deviation) can be used for the geometry determining the mouth of pipe.As shown in figure 23, the base main shaft of the mouth of pipe 50 is determined by the distance measuring center, nostril and upper lip.As shown in figure 24, the base minor axis of the mouth of pipe 50 is determined by availability interval maximum between the mouth of pipe.But, the size of any other method determination mouth of pipe be applicable to can be adopted.If (wish that deleting Figure 22-24 from this application please advise.)

Interval between above-mentioned wing angle, seal area, the mouth of pipe and the size of the mouth of pipe can be determined to be applicable to various patient.Such as, and can provide the nasal assembly of different size, small size, medium size, large size, to adapt to the patient of various different size.But, any other method and mode can be adopted to provide the nasal assembly of the patient of applicable maximum magnitude.

An aspect of of the present present invention relates to a kind of nasal assembly that sealing is separated with stability force.That is, nasal assembly has this structure, makes keep nasal assembly at the stability force of patient face and keep the sealing force sealed between nasal assembly with patient's face separate or differentiate at least better.During use, sealing force acts on the more responsive region of patient face, and as nose, and stability force acts on the not too responsive region of patient face, as the rear portion of upper lip, buccal and patient's head.And stability force is tending towards being greater than sealing force.Thus, nasal assembly is configured to make larger stability force and less sealing force substantially be separated to improve the comfort level of patient.

Specifically, the structure of nasal assembly can make the stability force added by headgear assemblies be distributed to the rear portion of patient's head, the buccal of patient and patient upper lip to remain on the face of nasal assembly patient in use.This nasal assembly applies the mouth of pipe assembly of sealing force to the nasal passage of patient when comprising use.The feature of headband makes sealing and stability force to adjust substantially respectively.Thus higher stability force similarly can not affect the more sensitive region of patient face, as nose etc.

Another aspect of the present invention relates to the mouth of pipe and applies force to the contact between the base part of patient face.Specifically, base part be configured to add component to patient face and nozzle construction become to add component to patient face.

As shown in Figure 1, such as, base part can have fully hard structure and add relatively little component to patient face to make it, and that is, base part is not by can substantially expanding or expand during gas pressurized.On the contrary, the mouth of pipe can have flexible structure so that it can provide relatively large component to patient face.That is, the Part I 56 of the mouth of pipe 50 can be used as a spring structure, and such as, spring loads or elasticity, to be plused fifteen power in patient face by the mouth of pipe 50.Be loaded by spring, mean the object in order to seal, the mouth of pipe adds the nasal sealing area of a predetermined power to patient.As preferably, before input gas-pressurized, the mouth of pipe is preloaded and thinks that user provides sealing force.As a result, base part and the mouth of pipe provide power to make to seal between nasal assembly and the nasal passage of patient together.

Or base part can have flexible structure, it is made to apply relatively large component patient on the face when expanding.On the contrary, the mouth of pipe can have the structure compared with rigidity, makes it apply relatively little component patient on the face.As a result, base part and the mouth of pipe provide power to make to seal between nasal assembly and the nasal passage of patient together.

Therefore, the structure of mouth of pipe assembly can make the mouth of pipe be spring loaded or have elastic force to apply enough component for sealing.Thus, base part can have harder structure to apply less component for sealing.Or mouth of pipe assembly can be configured so that base part can fully be expanded to add enough component in order to sealing, and the mouth of pipe can have harder structure to add less component in order to sealing.Such as, or the mouth of pipe can be substantially rigid, when for concrete customization.These changes can combine to embodiment formerly (relevant rigid base portion and spring-loaded (as prestrain) mouth of pipe).In this case, the structure of the base of the mouth of pipe can provide variable pre-load amount, and the hermetic unit of the mouth of pipe, is preferably customization, can be relatively hard.And the structure of this mouth of pipe assembly can make base part and the mouth of pipe provide the component of basic simlarity for sealing.

Second example embodiment

Figure 25 to 37 shows nasal assembly, represents with 201, another embodiment.As shown in Figure 25 to 27, the mouth of pipe assembly 218 that nasal assembly 210 comprises framework 216 and is removably connected with framework 216.Headgear assemblies 220 (see Figure 37) is removably mounted on framework 216 to make framework 216 and mouth of pipe assembly 218 remain on the position needing to adjust at patient's face.Air induction conduit 274 (see Figure 36 and 37) is also removably connected on framework 216 to carry breathing gas to supply patient respiration to framework 216 and mouth of pipe assembly 218.Headgear assemblies 220 and air induction conduit 274 are removably connected on framework 216 by air induction conduit and headband coupling assembling 222.This coupling assembling 222 comprises and is arranged on the first link 224 on framework 216 and the second link 226 being suitable for removably being connected with the first link 224.This second link 226 is removably connected with headgear assemblies 220 and air induction conduit 274, will discuss further below.

As shown in Figure 28 and Figure 29, framework 216 comprises main body 228, and it provides a central opening 230 that can hold mouth of pipe assembly 218.Framework 216 also comprises the side frame member 232 being arranged on each side of main body 228.Each side frame member 232 comprises the first link 224 with its formation entirety.First link 224 is that within it surface has the form of the conduit 264 of groove 266.This framework 216 also comprises a series of opening 278 to remove CO ₂.

As shown in Figure 25-27 and 30-31, mouth of pipe assembly 218 forms the conduit comprising main body 219 and relative end section 221 (illustrate only the half of mouth of pipe assembly 218 in figure).As shown in figure 27, end section 221 is stretched over above side frame member 232, makes main body 228 and the central opening 230 of main body 219 cover framework 216.When mouth of pipe assembly 218 is installed on framework 216, framework 216 increases hardness to the mouth of pipe assembly 218 of relative flexibility.

The main body 219 of mouth of pipe assembly 218 comprises corner brace 248 and a pair mouth of pipe 250 be connected on it.The mouth of pipe 250 can be similar to the patten's design of the above-mentioned mouth of pipe 50 and framework.The main body 219 of mouth of pipe assembly also comprises and is arranged on framework 216 for discharging CO ₂the aligned series of openings 223 of series of openings 278.

As illustrated in figs. 32-34, the second link 226 comprises the main body with previous section 260 and aft section 262.This previous section 260 comprises some flexible arms 238 with resilience, and it can radially inwardly with to external extension.Each arm 238 provides ribbed part 240 at its free end.During use, the ribbed part 240 of this some arm 238 is suitable for engaging with the groove 266 of the first link 224, the first link 224 and the second link 226 to be combined with each other.Contrary with above-mentioned coupling assembling 22, coupling assembling 222 does not provide guide section.Thus the second link 226 can relative to the first link 224 rotate with non-quantitative, the mouth of pipe 250 and patient be set protect aiming at of nasal passage.Such as, this set is by friction lock.

The aft section 262 of the second link 226 comprises cross bar 270, and its band formed for headgear assemblies 220 can through the opening also removably connected.This aft section 262 also provides a pair conduit 272 to transmit the air induction conduit of breathing gas to framework 216 and mouth of pipe assembly 218 for being connected to.

As shown in figure 36, nasal assembly 210 comprises a pair air induction conduit 274 (can only see an air induction conduit 274 in Figure 36).This is connected to each second link 226 be connected with framework 216 to the first end of air induction conduit 274.This is connected to the second end of conduit 274 pneumatic supply providing pressurized breathable gas.As shown in figs. 36 and 37, this extends up to above patient head air induction conduit 274 path.But this can set path in any suitable manner to air induction conduit 274, as the path of the downward jaw downward-extension from patient.

Its result, the gas pressurizeed inputs framework 216 and mouth of pipe assembly 218 by this to air induction conduit 274, and by the mouth of pipe 250 for patient respiration.

Figure 35 shows this second end of air induction conduit 274 and the interconnective flow generator connector 284 of pneumatic supply.Specifically, this flow generator connector 284 comprises a pair first conduits be connected to one of air induction conduit 274 with this and a pair second conduits 288 be connected to another conduit in air induction conduit 274 with this.This flow generator connector 284 comprises the 3rd conduit 290 be connected with the conduit being connected to gas-pressurized, air or fluid source.3rd adapter 290 can comprise swivel joint or flexible bindiny mechanism with relative motion between the conduit allowing flow generator connector 284 and be connected with pressurized source.In addition, the 3rd adapter 290 can comprise ball-and-socket joint to make when the 3rd adapter 290 is positioned on the patient crown in excessive configuration, and the stretching of pipe is minimum.

In an exemplary embodiment, air induction conduit 274 provides two gas channels with central supported wall to prevent kink and blocking.But this conduit 274 link 224,226 and adapter 284 can provide a gas channel or two or more gas channel.

Headgear assemblies 220 removably or be fixedly connected to the second link 226 of being connected with framework 216 and remain on the desired position adjusted to make framework 216 and mouth of pipe assembly 218 in patient face.As shown in figure 37, headgear assemblies 220 comprises two lateral parts 292 (can only see a lateral parts 292 in Figure 37), and aft section 294 is connected with this lateral parts 292.Each lateral parts 292 comprises side band 296.With the interconnective aft section 294 of these two lateral parts 292, comprise the upper band 298 crossing the patient crown and the rear band 299 walking around patient's back of head.Upper band 298 and rear band 299 can carry out adaptation adjustment and can be single band or ring.And headgear assemblies can be fixedly connected on framework.

Each side band 296 has the width of reduction, makes it reel to be arranged on the cross bar 270 on the second link 226.Hook and annular material can be adopted, as this side band 296 is helped to be fixed to each cross bar 270.Thus, side band 296 can carry out accommodation relative to the second link 226.

Opening or bracelet can be arranged on and side band 296 make band 298 and rear band 299 and its combination.But headgear assemblies 220 can comprise multi-ribbon to support that nasal assembly 210 is on patient's head.Or headgear assemblies 220 can make an overall structure.

As shown in figure 37, headgear assemblies 220 comprises positioning belt 291 with the appropriate location keeping flow generator connector 284 and air induction conduit 274 to be positioned at the patient crown.Headgear assemblies 220 also comprises locating fork 293 to keep air induction conduit 274 near headgear assemblies 220 when air induction conduit 274 upwards extends across the crown.

Similar with nasal assembly 10 as above, the power that corner brace 248 produces together with air pressure provides the effective sealing force to patient's nasal passage 12.Thus, corner brace 248 makes the suitable tension force that must seal required headgear assemblies of acquisition reduce.In addition, the position of the mouth of pipe 250 can relative to the adjustment of patient's nose with the comfort level improving patient.

As shown in figure 25, such as, corner brace 248 has flexible structure, so that add relatively large component when expanding in patient face.On the contrary, the mouth of pipe has harder structure so that it only adds relatively little power in patient face.That is, the Part I of the mouth of pipe can have less load on spring to provide relatively little power by the mouth of pipe in patient face.As a result, corner brace and the mouth of pipe produce the power for providing the sealing between nasal assembly and patient's nasal passage together.

3rd example embodiment

Figure 38 to 51 shows with another embodiment of 310 nasal assemblies represented.As shown in Figure 38,39 and 43, the mouth of pipe assembly 318 that nasal assembly 310 comprises framework 316 and is removably connected with framework 316.Headgear assemblies 320 is removably connected on framework 316 to make framework 316 and mouth of pipe assembly 318 remain on the position needing to adjust at patient's face.Air induction conduit 374 is also removably connected on framework 316 to carry breathing gas to supply patient respiration to framework 316 and mouth of pipe assembly 318.Headgear assemblies 320 and air induction conduit 374 are detachably connected on framework 316 by air induction conduit and headband coupling assembling 322.This coupling assembling 322 comprises and is arranged on the first link 324 on framework 316 and the second link 326 being suitable for removably being connected with the first link 324.This second link 326 is removably connected with headgear assemblies 320 and air induction conduit 374, will discuss further below.

As shown in figure 40, framework 316 comprises main body 328, and it provides a central opening 330 that can hold mouth of pipe assembly 318.Framework 316 also comprises the side frame member 232 being arranged on each side of main body 328.Each side frame member 332 comprises the first link 324 with its formation entirety.First link 324 is that within it surface has the form of the conduit 364 of groove 366 (see Figure 43).

As shown in figure 41, mouth of pipe assembly 318 forms the conduit comprising main body 319 and relative end section 321.As shown in Figure 42,43 and 44, end section 321 is stretched over above the side frame member 332 of framework 316, makes main body 328 and the central opening 330 of main body 319 cover framework 316.When mouth of pipe assembly 318 is installed on framework 316, framework 316 and mouth of pipe assembly 318 are formed and transmit the conduit of breathing gas to the nose of patient.In addition, framework 316 increases in hardness or structure to the mouth of pipe assembly 318 of relative flexibility and forms entirety.

As shown in Figure 43 and 44, the main body 319 of mouth of pipe assembly 318 comprises base component 348 and a pair mouth of pipe 350 be connected thereon.The mouth of pipe 350 can be similar to the patten's design of the above-mentioned mouth of pipe 50 and framework.The main body 319 of mouth of pipe assembly 318 also comprises for discharging CO ₂one or more openings 323 (e.g., seeing Figure 39 and 41).

As shown in Figure 38 B and 43, the second link 326 comprises the main body with previous section 360 and aft section 362.This previous section 360 comprises ribbed part 340.During use, ribbed part 340 is suitable for engaging with the groove 366 of the first link 324, to be combined with each other by the first and second links 324,326.Similar with above-mentioned coupling assembling 222, the second link 326 can rotate relative to the first link 324 and aim at the nasal passage of patient with the adjustment mouth of pipe 350 that arranges of non-quantitative.Such as, this set at random can pass through friction lock.

As shown in Figure 38 and 38B, the aft section 362 of the second link 326 comprises opening 370, can for the band of headgear assemblies 320 through also removably connecting.As shown in fig. 38b, this aft section 362 also provides a pair conduit 372 to transmit the air induction conduit of breathing gas to framework 316 and mouth of pipe assembly 318 for being connected to.

As shown in Figure 38,39 and 45, nasal assembly 310 comprises a pair air induction conduit 374.This is connected to each second link 326 be connected with framework 316 to the first end of air induction conduit 374.This is connected to the second end of conduit 374 pneumatic supply providing pressurized breathable gas.As shown in figure 45, such as, the second link 326 can rotate to make this upwards to stride across patient head to the path of air induction conduit 374 relative to the first link 324 or down to below the lower jaw of patient.

Its result, the gas of pressurization inputs framework 316 and mouth of pipe assembly 318 by this to air induction conduit 374, and by the mouth of pipe 350 for patient respiration.

Figure 45,47 and 48 shows this second end of air induction conduit 374 and the interconnective angled connector 384 of pneumatic supply.As shown in figure 47, this adapter 384 can comprise a pair DLC 386 be connected with each air induction conduit 374.Or as shown in figure 48, this flow generator connector 384 can comprise a pair single conduit 386 be connected with each air induction conduit 374.The end of two gas channel air induction conduit 374 can be revised, and as shown in figure 48, is connected with the adapter 386 contributed to have a pair single conduit 386.In addition, as shown in Figure 47 and 48, the end of air induction conduit 374 can comprise a series of ridge projections, interlocks with a series of ridge projections that adapter 384 is arranged, and is reliably connected with adapter 384 to make air induction conduit 374.

As shown in figure 49, air induction conduit 374 provides two gas channels with central supported wall to prevent kink or inaccessible, e.g., and anti-deformation, and be easy to connect.And air induction conduit can be made with harder material, as harder durometer silicone, to prevent kink or inaccessible.But this conduit 374, link 324,326 and adapter 384 can provide a gas channel or more than two gas channels.As shown in Figure 47 B, air induction conduit 374 can extrusion molding or make an entirety on the contrary.Or, as shown in Figure 48 B, air induction conduit 374 can comprise the some conduits formed by injection molding, common mode platen press or insert mold pressing, and be interconnected in any suitable manner, such as, by adapter and/or other are as the securing member of binding agent, or whole assembly mould is pressed into one, thus parts can be reduced and reduce complexity.

Headgear assemblies 320 is detachably connected to the second link 326 be connected with framework 316 and remains on the desired position adjusted to make framework 316 and mouth of pipe assembly 318 in patient face.As shown in Figure 38,39 and 45, headgear assemblies 320 comprises two lateral parts 392, and aft section 394 is connected with this lateral parts 392.Each lateral parts 392 comprises side band 396.The upper band 398 crossing the patient crown and the rear band 399 walking around patient's back of head is comprised with these two interconnective aft section of lateral parts 392 394.As shown in figure 45, after aft section 394 can comprise second, band 387 is to increase stability.

Each side band 396 has the width of reduction, makes it reel to be arranged on the upper shed 370 of the second link 326.Hook and annular material can be adopted, as side band 396 is helped to be fixed to each opening 370.Thus, side band 396 can carry out accommodation relative to the second link 326.

In this example embodiment, headgear assemblies 320 makes an overall structure.But headgear assemblies 320 can comprise the multi-ribbon of suitably setting to support that nasal assembly 310 is in patient head.As shown in figure 45, headgear assemblies 320 can comprise fixing band 393 to keep air induction conduit 374 up over patient head.

Figure 50 shows the nasal assembly 310 that will engage with the nasal passage 12 of patient's nose 14.Figure 51 shows the nasal assembly 310 engaged with the nasal passage 12 of patient.The silicone outer surface of the upper lip contact mouth of pipe assembly 318 of patient remains on the suitable position of patient face to contribute to nasal assembly 310.

Similar with nasal assembly 10 as above, the power that base part 348 produces together with air pressure provides the effective sealing force to patient's nasal passage 12.Thus, base part 348 makes the tension force obtaining the suitable headgear assemblies needed for sealing reduce.And the position of the mouth of pipe 350 can relative to the adjustment of patient's nose with the comfort level improving patient.

As shown in figure 43, such as, base part 348 has flexible structure, so that add relatively large component when inflating in patient face.On the contrary, the mouth of pipe has harder structure so that it can only add relatively little component in patient face.That is, the Part I of the mouth of pipe can have less elastic force load to provide relatively little component by the mouth of pipe in patient face.As a result, base part and the mouth of pipe produce the power for providing the sealing between nasal assembly and patient's nasal passage together.

In addition, base part 348 can provide specific power in required direction, such as, is internally conducive to the power sealed.Base part 348 can provide larger dislocation to provide additional power in some region.

What Figure 46 was some power that produces when nasal assembly installs to patient head tries hard to.Such as, in patient face generation power, the nose of patient and lip produce power to headband tension force on nasal assembly 310.(please advise whether will deleting this figure.)

4th example embodiment

Figure 52 to 58 shows with another embodiment of 410 nasal assemblies represented.As shown in figs. 52 and 53, nasal assembly 410 mouth of pipe assembly 418 that comprises framework 416 and be removably connected with framework 416.Headgear assemblies 420 is detachably connected on framework 416 to make framework 416 and mouth of pipe assembly 418 remain on the position needing to adjust at patient's face.Air induction conduit 474 is also removably mounted on framework 416 to carry breathing gas to supply patient respiration to framework 416 and mouth of pipe assembly 418.Headgear assemblies 420 and air induction conduit 474 are removably mounted on framework 416 by air induction conduit and headband coupling assembling 422.This coupling assembling 422 comprises and is arranged on the first link 424 (see Figure 55 and 56) on framework 416 and the second link 426 being suitable for removably being connected with the first link 424.Second link 426 removably or be fixedly attached on headgear assemblies 420 and air induction conduit 474, will be discussed below further.

As shown in figs. 52 and 54, framework 416 comprises main body 428, provides a central opening 430 that can hold mouth of pipe assembly 418.Framework 416 also comprises the side frame member 432 being arranged on each side of main body 428.Each side frame member 432 comprises the first link 424 with its formation entirety.First link is the form (see Figure 55 and 56) of cross bar 466.As shown in Figure 54, main body 428 comprises the edge 446 forming central opening 430.

As shown in Figure 54, mouth of pipe assembly 418 comprises corner brace 448 and connected a pair mouth of pipe 450.Corner brace 448 has sidewall 452, combines for sealing with the edge 446 of the opening 430 around framework 416.Such as, the sidewall 452 of corner brace 448 can be fluted, and it forms interlocking with each projection on the edge 446 be arranged on framework 416 with hasp.Such as, but mouth of pipe assembly 418 can be removably mounted on framework 416 by any other suitable mode, frictional fit.When mouth of pipe assembly 418 is arranged on framework 416, mouth of pipe assembly 418 just forms a conduit together with framework 416, for passing through this line up 450 by the nose of respirable gas channeling patient.

The mouth of pipe 450 can with patten's design and the structure being similar to the above-mentioned mouth of pipe 50.Framework 416 can comprise one or more opening (not display) to discharge CO ₂.

As shown in fig. 55, the second link 426 comprises the main body with previous section 460 and aft section 462.Previous section 460 is included in a pair arm member 461 that its far-end has a monoblock type projection 463.In use, arm member 461 curves inwardly by cross bar 466 effect of the first link 424, the arrival operating position until arm member 461 arm member 461 outwards turns back, makes the shoulder of monoblock type projection 463 locate and the second link 426 and the first link 424 is interlocked (see Figure 56).

The arm member 461 of the second link 426 can rotate relative to the cross bar 466 of the first link 424.As shown in fig. 55, arm member 461 has projection 465, optionally can be meshed with a series of grooves of cross bar 466 inner surface to provide the setting of aiming at the predetermined number of the mouth of pipe 450 relative to the nasal passage of patient.

As shown in fig. 55, aft section 462 has a pair conduit 472 for being connected to air induction conduit to carry breathable gas to framework 416 and mouth of pipe assembly 418.The aft section 462 of the second link 426 also comprises cross bar or opening (not shown) is so that the belt of headgear assemblies 420 passes and removably connects.

As shown in figs. 52 and 53, nasal assembly 410 has a pair air induction conduit 474.This is connected to each second link 426 be connected with framework 416 to the first end of conduit 474.This is connected to the pneumatic supply of the breathable gas providing pressurization to the second end of conduit 474.As in figure 52, the second link 426 can rotate relative to the first link 424 such as, to make this to air induction conduit 474 path up on patient's head or down to below lower jaw.

Therefore, gas-pressurized can enter framework 416 and mouth of pipe assembly 418 by this to air induction conduit 474, and by the mouth of pipe 450 for patient respiration.

Figure 53 explicit declaration makes this to the second end of air induction conduit 474 and the interconnective flow generator connector 484 of pneumatic supply.

As in figure 52, air induction conduit 474 provides two gas channel tie to prevent button and be beneficial to connection.But this conduit 474, link 424,426, adapter 484 can construct provides a gas channel or plural gas channel.

Headgear assemblies 420 is detachably connected to the second link 426 be connected with framework 416 and remains on to make framework 416 and mouth of pipe assembly 418 position wanting to adjust on the face patient.As shown in figs. 52 and 53, headgear assemblies 420 has two lateral parts 492, makes aft section 494 connection side face portion 492.Each lateral parts 492 comprises side band 496.The aft section 494 interconnected with two lateral parts 492 comprises the upper band 498 crossing patient's overhead and the rear band 499 walking around patient head rear.But headgear assemblies can be fixedly connected on framework.

Each side band 496 has the width of minimizing so that the cross bar that can be wound around above the second link 426 or opening.Can utilize hook and annular material, such as Velcro ( ) help side band 496 and be fixed to each cross bar and opening.Like this, side band 496 can adjust relative to the second link 426 and reach suitable installation.

In this example embodiment, headgear assemblies 420 is configured to overall structure.But headgear assemblies 420 can comprise bringing of multiple suitable arrangement and support nasal assembly 410 on patient's head.As shown in figs. 52 and 53, headgear assemblies 420 can have the retainer belt 493 of maintenance air induction conduit 474 up over patient head.

Figure 57 and Figure 58 shows nasal assembly 410 and engages with the nasal passage 12 of patient's nose.Similar with nasal assembly 10 discussed above, the nasal passage 12 that the power provided by corner brace 448 together with air pressure is patient provides effective sealing force.Like this, corner brace 448 reduces the tension force obtaining the suitable headgear assemblies needed for sealing.Equally, the comfort level of patient can be improved in the position of the mouth of pipe 450 relative to the nose adjustment of user.

As shown in Figure 58, such as, corner brace has substantially hard structure so it provides relatively little component on the face patient when inflation.On the contrary, the mouth of pipe has soft structure so it provides relatively large component on the face patient.That is, the Part I of the mouth of pipe can have relatively large load on spring to apply component by the mouth of pipe on the face patient.As a result, corner brace and the mouth of pipe provide power to seal between nasal assembly and patient's nasal passage together.

5th example embodiment

Figure 59 to 85 shows with another embodiment of 510 nasal assemblies represented.Nasal assembly 510 comprises framework 516 and is removably connected to the mouth of pipe assembly 518 on framework 516.As shown in Figure 61, framework 516 comprises a pair first links 524.According to Figure 59, a pair air induction conduit 574 is configured to conveying breathable gas and enters framework 516 and mouth of pipe assembly 518 for patient respiration.Breathable gas, such as, is transported to framework 516 and mouth of pipe assembly 518 by a pair second links 526 and a pair angled connector 542 from air induction conduit 574.Second link 526 is removably and on each first link 524 being rotatably connected on framework 516 (Figure 61).Angled connector 542 connects or is positioned between the second link 526 and corresponding air induction conduit 574.Headgear assemblies 520 is detachably connected on a pair second links 526 and/or angled connector 542, so that framework 516 and mouth of pipe assembly 518 remain on the position needing to adjust at patient's face, the following will discuss.

As shown in Figure 61, framework 516 comprises main body 528 and is arranged on the side frame member 532 of each side of main body 528.Each side frame member 532 has the first link 524 forming entirety with it.First link 524 is the form at its outer surface with the conduit 564 of annular groove 566.In addition, main body 528 has the passage 565 of prolongation at its reverse side, and each side frame member 532 has circular passage 567.Passage 565,567 are configured to the end holding mouth of pipe assembly 518, the following will discuss.

As shown in Figure 61-65, mouth of pipe assembly 518 comprises gusset or base component 548 and a pair mouth of pipe 550 mounted thereto.The mouth of pipe 518 connects with framework 516, make this line up 550 be configured in use with the nasal passage sealed engagement of the nose of patient, and provide the sealing between nasal assembly 510 and the nasal passage of patient.The mouth of pipe 550 can with the similar patten's design of the above-mentioned mouth of pipe 50 and structure.Equally, mouth of pipe assembly 518 comprise one or more opening 549 be used for remove CO ₂.

Figure 65 A is the zoomed-in view of the mouth of pipe assembly 518 shown in Figure 65, and mouth of pipe assembly comprises the upper outline portion 519 generally with same cross section preferably by this assembly.Therefore, assembly is usually followed facial line thus from face's projection, thus can not be kept lower profile.Similar, Figure 119 shows a mouth of pipe or spacer assembly 604, sees usually follow face contour from above.

Mouth of pipe assembly 518 shown in Figure 65 A also has the bottom profiled part 521 usually matched with face mask, and mouth of pipe assembly 518 is asymmetric about axle A, can provide better cooperation compared with the symmetrical mask of prior art.Bottom profiled 521 is also useful to bearded patient.

From the power of patient interface holding device such as headband, be delivered on the face by the mouth of pipe 550 and bottom profiled part 521.The gross area increased decreases the power in unit are, carrys out scatteredload.The gross area increased also helps better to fix patient interface.The shape of bottom profiled part 521 can be customized according to the specific requirement of user.Bottom profiled part 521 can be rigidity, semirigid, elastic or they some combination.The upper jaw bone of face can bear larger pressure and can not feel uncomfortable.

Figure 65 B schematically illustrates the pressure distribution caused because of the increase of area, and particularly, the region be close to below nose only has soft tissue and cartilage.

If the place of mere contact is the place (that is: not comprising upper jaw bone) nestled up below nose, so by minimum power, the mouth of pipe being maintained suitable place will need in F1 direction to make a concerted effort.This will distort nose and can cause uncomfortable.If such band has been tightened up, it may front landing from the beginning.But when some loads are born by upper jaw bone (that is, some power are added in underthe nose, and other are added on upper jaw bone), the direction of making a concerted effort will become F2, and load has been disperseed.Because upper jaw bone can not move, so F2 can highlyer also can not cause uncomfortable.So a kind of layout can be born more and excessively be tightened power.So also more can cover occiput.

In this exemplary embodiment, mouth of pipe assembly 518 around each side frame member 532 of main body 528 and framework 516, and is fixed on framework 516 by clip 530.In another embodiment, liner can be moved on framework as socks.Form circular passage 567 in each side frame member 532, and the lateral parts 536 of mouth of pipe assembly 518 is involved in passage 567.Specifically, as shown in Figure 61, mouth of pipe assembly 518 is generally the tubular structure of the open-ended with longitudinal opening.This structure makes mouth of pipe assembly 518 have end section 534 and the lateral parts 536 of a pair opposing spaced apart.When mouth of pipe assembly 518 is connected on framework 516, lateral parts 536 and corresponding circular passage 567 internal messing and last end section 534 and be positioned at corresponding extending channel 565 internal messing of opposite side of main body 528, as shown in Figure 64 and 68.

As shown in Figure 62 to 64 and 66, end section 534 is fixed between framework 516 and clip 530.That is to say, between end section 534 each flange of being fixed on relative passage 565 and the flange of clip 530.When mouth of pipe assembly 518 is connected on framework 516, mouth of pipe assembly 518 forms conduit together with framework 516, guides breathable gas to enter the nose of patient by this line up 550.

Clip 530 can be meshed with framework 516 and mouth of pipe assembly 518 in any suitable manner.Such as, as shown in Figure 62 and 70, clip 530 can slide on framework 516.Can also select, clip 530 can be engaged by snap fit with framework 510.

As shown in Figure 59, framework 516 is fixed to mouth of pipe assembly 518, and framework 516 leaves the upper lip of patient at angle so in use, and this just makes the position of clip 530 leave patient thus can not stimulate the face of patient.Equally, mouth of pipe assembly 518 can be formed profile with adapt in use in patient every.

The connection of said frame 516 and mouth of pipe assembly 518 makes mouth of pipe assembly 518 can dismantle to facilitate the cleaning of line up assembly 518 easily from framework 516.And the structure of mouth of pipe assembly 518 allows inside close to mouth of pipe assembly 518 to clean.The structure of this mouth of pipe assembly 518 is also convenient to produce.

But mouth of pipe assembly 518 removably can also be connected on framework 516 by any other suitable mode, such as, Figure 67,69, and 71 describe the another kind of method be connected to by mouth of pipe assembly on framework.As shown in the figure, framework 616 is constructed to that main body does not have passage, such mouth of pipe assembly 618 around main body and clip 630 be fixed on framework 616 two side frame member between to keep the end section of mouth of pipe assembly 618.

As shown in Figure 72, the second link 526 comprises the main body with previous section 560 and aft section 562.Contiguous previous section 560 fluted 561.Previous section 560 comprises annular rib and divides 540 (Figure 73).The previous section 560 of the second link 526 extend to corresponding first link 524 above to carry out interference fit.Equally, ribbed part 540 be suitable for being engaged to the first link 524 groove 566 in make the first link 524 and the second link 526 be interconnected, as shown in Figure 73.Second link 526 can rotate relative to the first link 524, arranges the alignment of the nasal passage adjustment mouth of pipe 550 relative to patient with non-quantitative.Such as, this set at random can pass through friction lock.That is, this rotatable connection allows framework 516 to rotate relative to the second link 526 so that in use relative to the position of the nose adjustment mouth of pipe 550 of patient.

Second link 526 can be made with the silicones that hardness is about 50 to 60 at Shore hardnes figure, and this hardness is convenient assembles with framework 516, rotary motion and sealing.But the second link 526 can form with any other suitable material and can be any suitable hardness.

Each second link 526 also can be formed with such feature, and that is exactly allow catch cropping relative movement at angled connector 542 and framework 516 there to be different frontal width.In this exemplary embodiment, this feature is the wrinkle 538 in the second angled connector 542.This feature isolated the second link 526 and framework 516 connection in case anti-avulsion from.This feature also allows the second link 526 can bend thus dampen tube drag forces.And the second link 526 flexible does not hinder air stream.But this feature can have other any suitable structure to provide adaptability.

In this exemplary embodiment, each second link 526 all has or is connected on the angled connector 542 that is connected with corresponding air induction conduit 574 (see Figure 74-76).Second link 526 and angled connector 542 can form an integral unit.The aft section 562 of each second link 526 comprises the interlocking (Figure 73) of bottom groove 544 form for being connected with angled connector 542.Angled connector 542 comprises and has a conduit 545 be meshed angled connector 542 is fixed to shoulder 546 on the second link 526 with bottom groove 544, and the decomposition Figure 73 before connecting can determine.

Angled connector 542 comprises the adapter 552 of the prolongation that structure is used for and corresponding air induction conduit 574 is meshed.In this exemplary embodiment, the adapter 552 of prolongation has the structure of taper to facilitate connection.In addition, adapter 552 is arranged and is inserted between air induction conduit 574 so that fixing air induction conduit 574.As shown in Figure 76, the prolongation adapter 552 of conduit 545 and angled connector 542 is mutually in about 80 degree of angles.But conduit 545 and the angle extended between adapter 552 can be any angles that other is applicable to.

Figure 76 A shows the embodiment of the similar face shield assembly of face shield assembly shown in another one with Figure 60.Figure 76 B is the decomposition view of the face shield assembly in Figure 76 A.Some is different a little for bar 580 ' in Figure 76 A and 76B and the bar 580 shown in Figure 60, and that is exactly that bar 580 ' in Figure 76 A and 76B has more fusiform, fashion and/or more optimize the profile being applicable to headgear assemblies more.In addition, the second link 526 ' in Figure 76 A and elbow connector 542 ' are configured to aim at (or preventing imbalance) with contributing to period.Especially, as shown in Figure 76 C, the second link 526 ' comprises the tab 526a in the keyway or groove 542a that will be contained in elbow connector 542 '.Elbow connector 542 ' also comprises the ridge ditch 542b of the tip holding tab 526A.

Get back to Figure 59, this is connected to each angled connector 542 to the first end of conduit 574, this is connected on flow generator connector 584 that is that be connected with swivel joint 590 or that be arranged on swivel joint 590 the second end of conduit 574, and swivel joint 590 connects with the pneumatic supply of supplied with pressurized breathable gas again.As shown in the figure, angled connector 542 defines this to air induction conduit 574 path down to below patient's lower jaw.

As a result, gas-pressurized by this to air induction conduit 574, angled connector 542, second link 526, framework 516 and mouth of pipe assembly 518, and can pass through the mouth of pipe 550 for patient respiration.

Figure 77 and 78 shows and is configured to make this to the second end of air induction conduit 574 and and the interconnective flow generator connector 584 of swivel joint 590 of pneumatic supply UNICOM.Flow generator connector 584 comprise construct be used for being meshed with one of air induction conduit 574 first extends adapter 586 with construct be used for being meshed with another of air induction conduit 574 second extend adapter 588.In this exemplary embodiment, first and second extend adapter 586,588 has pyramidal structure, and such as, top angulation is to facilitate connection.In addition, first and second extend adapters 586,588 be arranged to be inserted in the corresponding air induction conduit 574 of period with, such as, fix corresponding air induction conduit 574 by frictional force.And flow generator connector 584 generally has Y shape shape, the first prolongation adapter 586 relative second is made to extend adapter 588 angulation.The Y shape shape of flow generator connector 584 prevents with the incorrect connection of air induction conduit 574 and helps to merge gas channel.As shown in Figure 59, swivel joint 590 can be connected on flow generator connector 584 thus to allow the relative motion relative to pneumatic supply.

As shown in Figure 79, each air induction conduit 574 comprises multiple passage.In this exemplary embodiment, each air induction conduit 574 is constructed to provide the pipeline of two gas channel to prevent or at least reduce kink and be out of shape and facilitate connection.But conduit 574, angled connector 542 and adapter 584 can construct and be used to provide a gas channel or plural gas channel.Air induction conduit 574 can be made with silicones and have the Shore hardnes figure being approximately 50.But air induction conduit 574 can have any suitable hardness with other suitable material manufacture any.

Air induction conduit 574 is constructed to produce lower impedance, and in one embodiment, the impedance that air induction conduit 574 produces for a given flow velocity is less than about 3cmH ₂o.Same, air induction conduit 574 has lower appearance profile.As shown in Figure 79, the width of each air induction conduit 574 is approximately 20 millimeters, is highly approximately 9.5 millimeters.But air induction conduit 574 can have other arbitrary applicable shape, size and structure.Such as, air induction conduit 574 can have the cross section of a roughly D shape.The size of 20 mm wides can adjust to change impedance.Such as, if when height and pressure keep reducing to know clearly width when constant, impedance will increase, because cross section reduces.Contrary, if keep when width increases height and pressure constant, impedance will reduce.Result need not increase height exactly just can reduce impedance, therefore keeps air induction conduit 574 to be low appearance profile, and they are oppressing in patient and/or the face that uncomfortablely can not be absorbed in patient or skin with regard to less like this.The miscellaneous part of air delivery path, such as angled connector 542, consider reduction impedance during design.On the contrary, the impedance of the air induction conduit or angled connector with circular cross-section can reduce similarly by the diameter increasing conduit, but the increase of appearance profile also adds the uncomfortable of patient accordingly, because conduit may from patient face in position outside further, and/or conduit may be pressed in patient on the face, this can reduce comfort level and compliance.

Headgear assemblies 520 is removably mounted on the second link 526 and angled connector 542 to keep the second union joint 526 on framework 516.In addition, headgear assemblies 520 is configured to dispatch tube pulling force in headgear assemblies 520 or framework 516, thus avoids or reduce the chance that pipe pulling force is added to mouth of pipe assembly, the sealing between the air flue that may jeopardize the mouth of pipe and patient like that.

As shown in Figure 59 and 60, headgear assemblies 520 comprises two lateral parts 592, and aft section 594 is connected with lateral parts 592.Lateral parts comprises side band and headband bar 580 is connected to each side band.Headband bar 580 plays the work of enhancing bar in order to increase the hardness of headgear assemblies 520.Figure 59 and 60 shows the structure of slightly different bar.In Figure 59, bar is one and covering at least flexible-belt 598, and a part of parts of 599 are to increase its rigidity or hardness.In Figure 60, bar 580 is semi-rigid layer, such as plastics, and it is arranged on, as being sewn on, on headband band 598 and/or 599.Bar in Figure 60 can hardness as required extend more or less together with belt 598 and/or 599.Bar 580 in Figure 60 also illustrates on Figure 80-82.Aft section 594 comprises the upper band 598 crossing the patient crown and the rear band 599 walking around patient head rear.Upper band 598 be configured to adjust sealing force because they by framework 516 pull-up on patient's nose.Rear band 599 is configured to adjust the stability of nasal assembly 510, because framework 516 to pull back into above patient's upper lip on the face by they.

Upper band 598 is buckled 570 by headband and is interconnected.Headband is buckled 570 and is constructed permission symmetrical adjustment headgear assemblies 520.Particularly, as shown in Figure 83, headband is buckled 570 and is comprised the first locking portion 571 and the second locking portion 572.First locking portion 571 is suitable for detachably with being adjustably connected with one of the upper band 598 extended from a headband bar 580, and the second locking portion 572 is suitable for detachably being connected with another root of the upper band 598 extended with another headband bar 580 adjustably.Each upper band 598 can reel the cross bar of the relevant locking portion 571,572 of bracelet 570, as shown in Figure 59.Each locking portion 571, is provided with tab 576 and adjusts headband tension force to facilitate patient on 572.In addition headband buckle 570 comprise arcwall face 578 with prevent headband buckle 570 and the head of patient contact.Rear band 599 can be interconnected by bracelet (as the same band 598) or connect in another suitable way.

Headband bar 580 in headgear assemblies 520 comprises the holding member 581 that is connected with the second corresponding link 526 to keep the second link 526 on framework 516.In this example embodiment, holding member 581 is ringwise and around each second link 526.As shown in Figure 73, annular retaining parts 581 have annular projection to be engaged in the annular groove 561 in corresponding second link 526, to be remained on framework 516 by the second link 526 securely.

In addition, this engages headband power is sent to framework 516 the corresponding groove 561 (Figure 72) that holding member 581 provides with the second link 526.This adjusts the power that headgear assemblies 520 is applied on framework 516 more accurately with regard to allowing.And headband is buckled 570 and is being centrally located in patient head to allow symmetrical adjustment headgear assemblies 520 thus to adjust the headband power be applied on framework 516.

Angled connector 542 and the headgear assemblies 520 of the second link 526 interlock releasedly.Particularly, angled connector 542 comprises the first Lock Part 554 (see Figure 74 B), and it can interlock with the second Lock Part 556 (see Figure 80) of setting on the headband bar 580 of headgear assemblies 520.In the exemplary embodiment, the first Lock Part 554 is that hook-like assembly unit is to interlock, as shown in Figure 81 and 82 with the cross bar of setting on the second Lock Part 556.Lock Part is taper and is designed to keep low posture.

Figure 84 and 85 shows the nasal assembly 510 be combined with the nasal passage of wearer nose.As shown in figure 84, nasal assembly be constructed to angled connector angle initialization be under horizontal line 10 degree contact with patient's cheekbone to avoid nasal assembly 510.In addition, clip 530 angle initialization that Figure 84 shows the breach end of clamping mouth of pipe assembly is the lip upward and outward leaving patient, to avoid contacting with the undesigned of patient.This angle in the scope of 10 to 90 degree, can be preferably 20 to 60 degree or about 30 degree.As shown in Figure 85, the second link 526 and framework 516 roughly become 55 degree of angles.Wrinkle 538 (Figure 73) can be set with flexible (inwardly with outside) to adapt to the difference of patient facial region's width.But, above said angle be exemplary, nasal assembly 510 can be constructed to the arbitrarily angled of the face being suitable for patient.

Similar with above-mentioned nasal assembly, the expansion of gusset or base component 548 provides effective sealing force to patient's nasal passage together with headband tension force.In addition, the elastic force of the mouth of pipe 550 provides extra sealing force.

6th example embodiment

Figure 86 to 88 shows the nasal assembly 10 another one embodiment (see Figure 97 A and 97B) that structure is used for carrying breathable gas to the nostril 12 of the nasal passage 12 of the nose 14 of patient.This nasal assembly 10 comprises flexible conduit 16, corner brace 18, a pair mouth of pipe 20,22 and headband adapter 25.Flexible conduit 16 has the parts and patient side 24 that are suitable for the pressurization breathable gas source held.Corner brace 18 has the first side 26 and the second side 28 be connected with the patient side of flexible conduit 16.This line up 20,22 respectively have the Part I 30 be connected with the second side 28 of corner brace 18, and structure is used in use and nasal passage 12 sealed engagement of patient nose 14 provide the Part II 32 (see Figure 90) of the sealing between nasal assembly 10 and patient's nasal passage 12.Headband adapter 25 connects flexible conduit 16 to the headgear assemblies be placed on patient's head.Corner brace 18 is constructed so: it can expand or shrink to change conduit 16 and the mouth of pipe to 20, and the distance between 22, will discuss below further.

Or corner brace is being tended to not allow obvious enlargement and contraction, if any, can be cancelled in more rigid structure.But, as described in when relating to other illustrated main embodiment as above-mentioned, the mouth of pipe can be constructed to the nostril of patient with the pretension of some degree (use face shield before, such as, before pressurization) be meshed, this pretension can be realized by the axis or longitudinally exert pressure at the mouth of pipe.

In this exemplary embodiment, flexible conduit 16 comprises centre pipe 34, a pair by corresponding enter the air induction conduit 36,38 that is connected with centre pipe 34 of opening connector 40,42, and be interconnected air induction conduit 36, the Y shape Inlet gas connector 44 of 38.Y shape Inlet gas connector 44 is configured to be connected on the conduit that is connected with pneumatic supply.Pneumatic supply passes through the breathable gas of air induction conduit 36,38 and centre pipe 34 supplied with pressurized, enters corner brace 18, and enters the mouth of pipe 20, and 22 for patient respiratory.

As shown in Figure 89, centre pipe 34 comprises interconnective upper part 46 and lower part 48.Each upper part 46 and lower part 48 comprise arcuate cross-section, just define conduit like this when they link together with corresponding edge.In this exemplary embodiment, upper part 46 and lower part 48 are fixedly connected to each other by binding agent, such as, pass through glue.But the mode that upper part 46 and lower part 48 can be applicable to by any other is fixedly connected to each other, as by securing member.Or upper part 46 and lower part 48 can removably be interconnected, or they can be processed into a global facility.

As Figure 86,88, shown in 90 and 92 to 95, when upper part 46 and lower part 48 are seen from above, be generally C shape shape.Particularly, each upper part 46 and lower part 48 comprise a central segment extended 50 and bending end segment 52,54.But upper part 46 and lower part 48 can be the shape that other are applicable to arbitrarily, the elongated shape such as shown in Figure 89.

Each bending end segment 52,54 comprises groove 56, such as shown in Figure 94.When upper part and lower part 46,48 are interconnected, groove 56 clamps corresponding inlet outlet connector 40,42, and this will discuss further.Upper part and lower part 46, in 48, at least one comprises a resistance to compression rib 58 to prevent centre pipe 45 formation distortion, can stop air circulation like that.In Figure 89, groove 56 is arranged on its opposite end.

As shown in Figure 89, the upper part 46 of centre pipe 34 comprises opening 60.As the corner brace 18 of the form of inflatable and contractile medicated pillow, include first side in formation space therebetween or sidewall 26 and the second side or sidewall 28.The first side wall 26 is connected on upper part 46.The first side wall 26 comprises the air inlet openings communicated with the opening 60 in upper part 46.Second sidewall 28 has opening of giving vent to anger for a pair.Connection between the upper part 46 of corner brace 18 and centre pipe 34 is that one flexibly connects, and this just allows the relative motion between corner brace 18 and centre pipe 34 to increase the change of the facial characteristics of comfort and adaptation patient.

In this exemplary embodiment, corner brace 18 is rectangular shape.But corner brace 18 can be circular or have circular cross section, or any other shape be applicable to, and comprises the shape avoiding patient face sensitizing range, such as, jagged gusset shape prevent with in patient every contact.

This line up 20,22 respectively has the Part I 30 of the second sidewall 28 of connecting angle brace parts, and the give vent to anger opening corresponding in corner brace communicates.The Part II 32 of each mouth of pipe 20,22 be built in use and patient nose 14 nasal passage 12 sealed engagement and the sealing between nasal assembly 10 and patient's nasal passage 12 is provided.In this exemplary embodiment, the mouth of pipe 20,22 is nose pincushion formulas, wherein Part II 32 outline-shaped becomes that a part is sealed in the below in nostril and another part enters the nasal passage of patient nose (such as in use, taper, cone shape, truncated hollow cone etc.).But, the mouth of pipe 20,22 can be such as, nose fork, nasal cannula or nose spray shape, and can in any suitable manner with nasal passage sealed engagement.Such as, the mouth of pipe 20,22 can be sealed in nasal passage, against nasal passage, around nasal passage, or the associating of wherein several mode.The mouth of pipe 20,22 can comprise part that is corrugated or flexibility, allow the mouth of pipe 20,22 to move relative to corner brace 18 and centre pipe 34 like this.The mouth of pipe 20,22 profiles can be processed to mate with the in-profile of patient's nose 14.

In one embodiment, nasal assembly uses the mouth of pipe of patient's customization, and it can be removably mounted in corner brace.In a preferred form, the mouth of pipe polythene material that can fully bend constructs, such as: silicone elastomer.By nose that is first on-the-spot or remote control scan patients, then use these data to go to produce contact surface, such as: molding, unique mouth of pipe can be manufactured to match with each patient nose.The method of discontiguous method or contact can be used scan.Discontiguous method, such as, takes a picture, or carries out Body contact by probe or by collecting in nostril or wanting the inside die of the inner surface contacted.Once the mouth of pipe be applicable to for a pair is made of, they are fed to user to be equipped with to patient.The advantage of shape pre-formed or customized is that sectional area can be maximum to reduce flow resistance.

In addition, the use of pre-formed shape improves comfort level, and can use increase hardened material, such as semirigid plastic, to improve the resistance to distortion, thus reduces the nozzle distortion in patient nostril.And due to it and the connection of corner brace, such as, corner brace is soft and submits to, and rigidity plastics can use the flexibility allowing thin segment and the mouth of pipe.

In this exemplary embodiment, that deformable and expandable material and corner brace 18 and the mouth of pipe or nose can be used to rest the head on 20,22 mold pressings is as a whole for the upper part 46 of centre pipe 34.Centre pipe 34, nose pillow 20,22 and corner brace 18 can use soft, flexible skin-compatible material structure, such as, and silicones.Centre pipe 34, nose pillow 20,22 and corner brace 18 can use, such as, prior art known injection molding formed.

But centre pipe 34, nose pillow 20,22 and corner brace 18 can be processed by any applicable material and any applicable method.Such as, centre pipe 34, corner brace 18 and nose pillow 20,22 can be processed separately and use such as binding agent, welding and/or machanical fastener to carry out permanent linking together.Or centre pipe 34, corner brace 18 and nose pillow 20,22 can be processed separately and removably be interconnected.

Lower part 48 on centre pipe 34 comprises steam vent 62 and a pair structure and is used for the projection 64 of holding head Belt connector 25 to the taper on central tube 34 or spinosity.The opening 60 of steam vent 62 and upper part 46 aligns.Steam vent 62 is from centre pipe 34 outwards slight projection and comprise a series of opening 66 to remove CO ₂.

As shown in Figure 89, headband adapter 25 is long band shape form, comprises the pair of openings 68 being suitable for for a pair holding projection 64 corresponding on lower part 48 and the central opening 70 being suitable for bearing steam vent 62.Particularly, opening 68 give as security in the projection 64 of taper or spinosity with maintain and positioning head Belt connector 25 on intermediate conductor 34.

And headband adapter 25 has the syndeton 72 of union joint band assembly (not having to show) at its free end.Headgear assemblies is removably connected with syndeton 72 to make nasal assembly 10 remain on the position of expectation on the face patient.Such as, headgear assemblies can comprise the band be removably connected in corresponding syndeton 72.

As shown in Figure 91, syndeton 72 can have circular edge.And opening 68,70 can have any applicable shape (such as, oval, circular, rectangle etc.).Such as, Figure 91 shows substantially elliptical opening 68,70, Figure 89 and shows circular opening 68 and roughly foursquare opening 70.

Deformable and the elastic material of headband adapter 25 constructs, and it just can be out of shape at least one flexure plane like this, such as, in use round the face of patient.Such as, headband adapter 25 can construct with polypropylene or any other polymer be applicable to.In addition, headband adapter 25 can with material that is natural or synthesis, or the combination of material such as compoboard.Headband adapter 25 is deformable, like this it just can when nasal assembly 10 is contained on patient's head and the face mask of patient suitable.And the power applied by headgear assemblies born by headband adapter 25, prevent tension force from drawing like this, and subsequently on distortion flexible central conduit 16.

But headband adapter 25 can have the arbitrary applicable structure being suitable for being connected in headgear assemblies.Such as, headband adapter 25 can have the projection 64 arranged on centre pipe 34, and headgear assemblies can be directly connected in projection 64.Or headband adapter can be used for the form of the locking clip receiver assembly connecting the corresponding locker that headgear assemblies provides for structure.Locking clip receiver and locker are 60/377,254,60/397,195 and 60/402 by the application number of the people such as Moore, and 509 U.S. Provisional Applications are open, and all these in this application as a reference.

Intermediate conductor 34 is connected to this to air induction conduit 36, on 38 by inlet outlet connector 40,42.As shown in Figure 97, each inlet outlet connector 40,42 comprises the first parts of vessels 74 being branched off into a pair second parts of vessels 76.First parts of vessels 74 comprises and is accommodated in centre pipe 34 at its opposite end section 52, the edge 78 of the radial dilatation in the corresponding groove 56 provided on 54.Like this, the first inlet outlet connector 40 remains on an end section 52 of centre pipe 34, and the second inlet outlet connector 42 remains on the opposite end section 54 of centre pipe 34.

Air induction conduit 36,38 each can have be connected to corresponding Inlet gas connector 40, the first end on 42 and be connected to the second end on Y shape Inlet gas connector 44.As shown in Figure 96, air induction conduit 36,38 respectively have first, second passage 80,82.Inlet outlet connector 40, this of 42 to first and second passages 80,82 of the second parts of vessels 76 through the first end of air induction conduit 36,38, with Inlet gas connector 40,42 and the first end of corresponding air induction conduit 36,38 link together.Inlet gas connector 40,42 and air induction conduit 36,38 can be kept by friction-type fit, machanical fastener, binding agent, common mode pressure, insertion mold pressing or other modes be applicable to.

As shown in Figure 96 A, Y-connection 44 comprises the first adapter 84 be connected with the second end of one of air induction conduit 36, with the second adapter 86 that another the second end of air induction conduit 38 is connected, and be connected to pneumatic supply to carry gas-pressurized to the 3rd adapter 88 of nasal assembly 10.First and second adapters 84,86 respectively comprise through air induction conduit 36, and first and second passages 80,82 of 38 are with a pair parts of vessels 90 that Y-connection 44 and corresponding air induction conduit 36,38 are connected.3rd adapter 88 can comprise a rotation mechanism to allow Y-connection 44 and to be connected to the mutual motion between the delivery conduit on pneumatic supply.This Y-connection 44 and air induction conduit 36,38 can be kept by friction-type fit, machanical fastener, binding agent, welding, insertion mold pressing or any other mode be applicable to.

As shown in Figure 98, centre pipe 34 and air induction conduit 36,38 can by 6, and withstand voltage, the resistance to compression disclosed in 044, No. 844 United States Patent (USP)s or anti-twist pipeline are formed.Quoting in full at this of this patent is for reference.

Gas-pressurized, by the adapter 88 of Y-connection 44, then enters two end sections of centre pipe 34 by the first and second air induction conduits 36,38.Air, by centre pipe 34, enters corner brace 18 and nose pillow 20,22, and enters the nasal passage 12 of patient.Can be discharged by the steam vent 62 arranged centre pipe 34 from patient's nose expellant gas.

As shown in Figure 86 and 89, corner brace 18 stretches out to provide extra surf zone and basal region from centre pipe 34.When the air after pressurizeing enters centre pipe 34, centre pipe 34 and corner brace 18 all expand, this just mobile nose pillow 20,22 make nasal passage 12 sealed engagement of itself and patient.But centre pipe 34 can not expand together with corner brace 18.That is to say, corner brace 18 is constructed to expansible and shrinks to change centre pipe 34 and nose pillow 20, the distance between 22.Corner brace 18 is at nose pillow 20,22 near the primary importance (as shown in Figure 97 A) of patient's nasal passage 12 and nose pillow 20,22 move with nose pillow 20,22 mobile between the second position of patient's nasal passage 12 sealed engagement (as shown in Figure 97 B).Particularly, corner brace 18 is not being non-bloating or normally flat during gas pressurized.But corner brace 18 can not have common flat structure when not expanding.When not expanding, nose pillow 20,22 is spaced with the nasal passage 12 of patient or has slight contact each other.When nasal assembly 10 is by gas pressurized, corner brace 18 is inflated and mobile nose pillow 20,22 enters nasal passage 12 sealed engagement of patient to form sealing between nasal assembly 10 and the nasal passage 12 of patient.When gas pressure increases, the power be added to below nasal passage 12 by corner brace 18 is just added.

Centered by corner brace 18, conduit 34 provides extra surf zone or basal region, and this just for nose pillow 20,22 provides extra pressure, also just adds the leakage efficiency of nose pillow 20,22 subsequently.In other words, corner brace 18 is configured and location is used for forcing nose to rest the head on the nasal contact of 20,22 and patient.The additional surface area being added in pressure in power on patient's nose or pressure and centre pipe 34 and corner brace 18 is proportional.Like this, corner brace 18 surf zone can change and change the power on patient's nose of being applied to or pressure.

The tension force of the headgear assemblies that the suitable sealing that corner brace 18 reduces to obtain needs.In other words, the pressure be applied on patient's nose is provided by corner brace 18 and is not relied on the pulling force from headgear assemblies.Which increase comfort level and the sealing characteristics of patient.

Therefore, it is desirable to adjust headgear assemblies make nose rest the head on 20,22 just near or very slight with patient's nasal contact.Use this method, corner brace 18 is not by substantial compression.

Corner brace 18 can comprise its sidewall 26, the connecting wall between 28.This connecting wall can be applied to patient's component on the face to be provided by nose pillow 20,22 as spring structure.This power can be come to change with adapting to by the thickness adjusting connecting wall.And the surf zone that the thickness of connecting wall can provide in conjunction with corner brace 18 changes.

Corner brace 18 also at centre pipe 34 and nose pillow 20, provides decoupling to connect between 22, this just allows some relative motioies between nasal assembly 10 and user's face.As a result, nose pillow 20,22 can adapt to the little change of patient's nose character shape and not have unsuitable power, and solves the little motion of nasal assembly 10 relative to patient's nose when in use can maintain effective sealing.

Equally, corner brace 18 needs not to be single gusset form discussed above, but can be other structure.Such as, corner brace 18 can be into two or more corner brace of series.

Figure 98 shows to 106 with another embodiment of 210 nasal assemblies represented.As shown in Figure 98 to 100, nasal assembly 210 comprises centre pipe 234, is connected to the air induction conduit 236,238 (such as, passing through binding agent) on centre pipe 234 for a pair, is interconnected air induction conduit 236, the inlet outlet connector 244 of 238.Inlet outlet connector 244 is constructed on the conduit that is connected to and is connected with pneumatic supply.Inlet outlet connector 244 can be axially rotatable with the distortion increase stability by reducing conduit.

Corner brace 218 comprises first and second sidewalls 226,228 in the space formed between them.The first side wall 226 comprises the air inlet openings communicated with the opening on centre pipe 234.Second sidewall 228 has opening of giving vent to anger for a pair.In this example embodiment, corner brace 18 is generally knot shape.But, the shape that corner brace 18 can be applicable to for other.

In a pair mouth of pipe 220 of nose pincushion formula, 222 are provided.Each nose pillow 220,222 has the Part I 230 of the second sidewall 228 being connected to the corner brace 218 communicated with the opening of respectively giving vent to anger of corner brace 218.The Part II 232 of each nose pillow 220,222 be built in use and patient's nose 14 nasal passage 12 sealed engagement and the sealing between nasal assembly 210 and patient's nasal passage 12 is provided.

In this example embodiment, centre pipe 234, air induction conduit 236,238, corner brace 218, nose pillow 220,222 flexible material, such as silicones constructs, and uses binding agent to be interconnected.But centre pipe 234, air induction conduit 236,238, corner brace 218, nose pillow 220,222 can mold pressing separately, or is formed by method applicable arbitrarily with any other suitable raw material.

Centre pipe 234 comprises slight steam vent 262 (Figure 100 and 101) outwardly to remove CO ₂.In addition, headband adapter 225 is the form of a pair clip 272, is connected to conduit 234,236, (such as, passes through binding agent) to be connected to headgear assemblies 206 on 238.Headgear assemblies 206 comprises and is connected to band 207 on corresponding clip 272 movably by hook and fasteners.As shown in Figure 101 and 102, the ear of patient crossed by band 207 and combination is positioned at the head cloth 208 on patient head top to hold the occiput part of patient.But headgear assemblies 206 can have other structures be applicable to arbitrarily to keep nasal assembly 210 on patient's head.

The outward flange that Figure 103 to 106 shows the nasal passage 12 of nasal assembly 210 and patient's nose 14 is meshed.Similar with nasal assembly 10 discussed above, when air enters centre pipe 234, centre pipe 234 and corner brace 218 expand, and this nasal passage 23 inner sealing that just mobile nose pillow 220,222 enters patient engages.But centre pipe 234 can not expand along with corner brace 218.In other words, corner brace 218 enters mobile nose pillow 220,222 between the second position of nasal passage 12 sealed engagement of patient at nose pillow 220,222 near the primary importance of the nasal passage 12 of patient and nose pillow 220,222.

At nasal assembly 10, in the embodiment of 210, air induction conduit 36,38,236,238 are extended the head of patient downwards from nose pillow 20,22,220,222.But as shown in Figure 107, being shown as the nasal assembly of 310, can be a type component of crossing head, air induction conduit 336 extends upwards beyond the above-head of patient from nose pillow 320,322 wherein.

Figure 107-1 shows embodiment alike shown in He Figure 107, but it comprises adjustable forehead supports 411.Forehead supports 411 comprises the first component 413 being supplied to tubular bracket 415.Connection between first component 413 and tubular bracket 415 allows the second component 417 of forehead supports 411 relative to patient head adjustment to obtain cooperation as well as possible.Second component 417 comprises bridge 419 to support one or more forehead cushions or liner 421, as 6,119, No. 693 United States Patent (USP)s and 10/655, such (each is here incorporated by reference) of discussing in No. 595 U.S. Patent applications, and the releasable headband connector component 423 be connected on the band 425 of headband.Headband connector component can be 6,374, No. 826 United States Patent (USP)s, and it is incorporated herein by reference, or 60/467, No. 570 U.S. Provisional Patent Application, its be incorporated herein by reference shown in form.Bridge 419 can comprise be configured to air delivery pipe is directed cross patient head time adapt to, guide and/or the mid portion on top of entraining air dispatch tube.First component 413 by bending relative to support 415, can stretch, and rotation adjusts.Such as, support 415 can comprise the trunnion 429 being introduced into aperture on first component 413.Support 415 and first component 413 can comprise multiple Lock Part (such as, projection and groove) to allow forehead supports 411 to be locked in multiple (such as 3-5 is preferably 4) preposition.

Figure 107-2 shows and is similar to 6, another embodiment of the adjustable forehead supports that the carrying out of disclosing in 532, No. 961 United States Patent (USP)s operates.This patent is here quoted as a reference.

Figure 107 A to 107C shows another one embodiment of the present invention.Figure 107 A is the perspective view of face shield assembly 650, and 107B is a side view of face shield assembly shown in Figure 107 A.Face shield assembly 650 comprises headgear assemblies 652 and nose cushion mat assembly 654.Headgear assemblies comprises the string of a hat 654 and occipital bone band 656.

Flexible pipe 658 comprises the first end 660 that can comprise rotary connector.Flexible pipe 658 provides the suitable source of Compressed Gas.This pipe comprises the second end 662 being supplied to cushion mat assembly 654.Pipe 658 support by the support frame 664.Support frame comprises the lower part 666 of the cushion pad 668 supporting cushion mat assembly 654.Support frame also comprises a mid portion 670 and upper part 672.Upper part 672 can comprise the flexible arm separated by interval.Flexible arm elastic deformation can insert to allow flexible pipe and shifts out between the two arms.Support frame 664 can comprise in use configuration and lean against the lateral bolster brace 674 of patient's forehead.Each lateral bolster brace 674 comprises for the corresponding string of a hat 654 and occipital bone band 656 provide junction point first and second to be connected tank 676,678 respectively.

Figure 107 B is the lateral plan of face shield assembly.Figure 107 C is the part of the amplification lateral plan of assembly 650 shown in Figure 107 A and Figure 107 B.The lower part 666 of support component 664 is suitable for supporting the cushion pad 668 shown in there.Cushion pad 668 comprises and synthesizes overall a pair mouth of pipe 680 (showing) with plenum chamber 682.

Figure 107 D and 107E shows another embodiment of present invention.Face shield assembly 690 has and comprises an occipital bone band 694, the string of a hat 696 and respectively stretch out and the headgear assemblies 692 of the sagging arm straps 698 extended forward along user's face ear from the connection between headband 696 and occipital bone band 694.The upper part of headband 696 can comprise a suitable adapter 700 such as flexible arm shown in Figure 107 A.Alternatively, adapter 700 can be that velcro loop form is to help stationary pipes 702.Pipe 702 comprises the first end 704 with the swivel joint being connected to suitable pressurized air source.Pipe 702 be arranged at forehead above and nose that is general and patient is spaced is in line.Support frame 708 comprises the upper part 710 that a maintenance stay pipe 702 is being satisfied with on position.Upper part 710 can have flexible arm, as the upper part 672 shown in picture Figure 107 A.

Support frame 708 can have a pair side arm 714, in lateral plan 107E, have good display.Each lateral bolster brace 714 all has the connection tank 715 being suitable for the one end holding sagging arm straps 698.

Figure 107 F shows an embodiment of mask assemblies 720, and it has a headgear assemblies 722 comprising first cross(ed) belt 724 and the second cross(ed) belt 726 that shape is general and alphabetical X is consistent.First cross(ed) belt 724 converges in a cross point or junction point mutually with the second cross(ed) belt 726.The front end of the second cross(ed) belt 726 is provided by the connecting element 730 that has velcro loop form.Connecting element 730 is suitable for supporting or keep to have the first end be connected to above relatively large internal diameter tube 732 and the transitional tubing piece being applicable to relatively the second end of small-bore tubing 734.Support frame 736 is used for maintaining pipe 734 and cushion pad 738 position shown in Figure 107.

Figure 107 G shows a face shield assembly 750 of another embodiment of present invention, and face shield assembly 750 comprises the headgear assemblies 752 that has rear band 754 and forehead strap 756.Suspension arm belt 758 extends from the junction point of rear band 754 and forehead strap 756.One or more belt may have the bar shape thing position of helping strengthen or keep this belt other belts relative.As shown in Figure 107 G, face shield assembly 750 comprises the first end 762 that has rotary connector, and this rotary connector can be used for being connected to air delivery pipe 764, and air delivery pipe 764 is supplied to a pressurized air source.

As shown in Figure 107 H, each belt 758 comprises the first connector connection part part 766, it have one or more can elastic telescopic to insert and to shift out link 766 to form the arm 767 of an applicable groove on framework 768.Framework 768 has the link 770 of an accommodation and/connection tube 760.As shown in Figure 107 H, the part on one of them mouth of pipe 772 is only had to be visible.

Figure 107 I shows an alternative embodiment of the invention.Face shield assembly 780 comprises the headgear assemblies 782 that has rear band 784 and forehead strap 786.Pipe 788 is connected with adapter 790 and the pipe 792 of then soft with one or more flexibility of the latter is connected, and 792 are connected with the rear band 784 of both sides on patient's head.Headgear assemblies 782 can comprise the suspension arm belt 783 be positioned at along patient's buccal before user's ear.Each pipe 792 is suitable for being connected on suspension arm belt 783.Each pipe 792 is all applicable to being connected with a cushion mat assembly.

An alternative embodiment of the invention is remained shown in Figure 107 I.Face shield assembly 800 comprises only some headgear assemblies shown in the drawings, and headgear assemblies comprises one and hangs belt 802, and its support and connection is to the lateral bolster brace 804 on cushion mat assembly 812.Each suspension arm belt 802 can be that a first end is connected with air delivery pipe 808, the U-shaped device for interchanging that the second end is connected with the pipe 810 being connected cushion mat assembly 812.

Figure 107 K and 107L demonstration remains one embodiment of the present of invention.As shown in Figure 107 K, the mouth of pipe 826 that cushion mat assembly comprises a framework 820, pressure-vent room or bellows room 824 and is arranged on for a pair on pressure-vent room 824.Cushion mat assembly can support by one or more lateral bolster brace 822, as shown in Figure 107 K.It is an option that cushion mat assembly can support by the support frame as shown in Figure 107 A.As shown in Figure 107 K, the mouth of pipe 826 has a relatively low attitude because the nasal passage of it and patient is meshed.But, as shown in Figure 107 L, the mouth of pipe 826 due to its elasticity can from extending to the position compared with lofty stance shown in Figure 107 L compared with the position of low profile shown in Figure 107 k.

Figure 107 M to 107Q shows the cross section of the various mouths of pipe 832,834,836,840 and 844 being applicable to current aspect.As shown in Figure 107 0, this mouth of pipe can comprise the ledge 838 being positioned at nasal passage edge when the mid portion 839 of the mouth of pipe is held by nasal passage.As shown in Figure 107 P, the mouth of pipe 840 comprises the outside otch 842 that could be avoided or reduce the advantage in nasal passage intermediate friction chance.As shown in Figure 107 Q, the mouth of pipe 844 may comprise a projection 846 and air flue is tilted from nasal passage wall.Figure 107 R shows the perspective view of projection 846 position.

7th example embodiment

Figure 108 to 113 shows another embodiment of present invention.As shown in Figure 108, face shield assembly 660 comprises headband 602 and cushion mat assembly 604, and each the corresponding and Figure 60 in them, the headband shown in 61 and cushion mat assembly are similar greatly.Headband 602 design is used for catching the top of patients head.By being positioned at the adjustment that the rightabout draw ring of patient head realizes belt pull.Pulley direction and mouth of pipe assembly are applied to the power of patient not point-blank.Bar provides stability for side.Bar at least remains a part for headband base shape to facilitate the insertion of headband.Headband does not need to have adjustability in facial front.Because to the realization that all adjustments of headgear assemblies can come from patient head rear or top.

In the embodiment of Figure 108, one end of cushion mat assembly 604 has a latch 622, and another breaks and has a rotation elbow 612.According to the preference of user, such as, the distinctive sleeping position of patient, the position rotating elbow 612 and latch 622 can be intercoursed.An air delivery pipe 606 is connected to and rotates on elbow 612.Air delivery pipe 606 can comprise the end 609 that a swivel joint 607 and comprise a swivel joint equally.End 609 is the source terminal of forced air.

As shown in Figure 108, elbow 612 turns over about 120 degree of angles from cushion mat assembly 604.Pipe maintains outside field range by this help, pressure reduces to minimum downwards and the close as much as possible face of the bending point of holding tube.But elbow can be one typical 90 degree and bend, such as shown in Figure 109 and 110.

Figure 109 is the perspective diagram of the face shield assembly 600 as shown in 108, but only has the bar 608 of headgear assemblies 602 be shown and do not have belt.As the 5th embodiment, bar 608 can have a yoke-like ring 610.As shown in Figure 109, cushion mat assembly can rotate relative to headband adjusts to an optimal position of patient.In Figure 109, the ring 610 on the bar 608 on headband has a telltale mark 611a, and cushion pad has many many telltale mark 611b with telltale mark 611a alinement that can be used for selecting.

Figure 110 is a viewgraph of cross-section of a part in cushion mat assembly 604.Particularly, cushion mat assembly 604 comprises the framework 616 that supports cushion pad 617.Framework 616 comprises the first connector connection part part 618 being supplied to framework 616 two ends and/or cushion pad 617.Each first connector connection part part 618 has sealing ring 614.Sealing ring and latch are all examples that is that be connected with the first connector connection part part 618 or that arrange the second adapter on the first connector.See Figure 110, the left-hand side of face shield assembly have latch 622 simultaneously right-hand side have and rotate elbow 612, also can be that setting reversed shown in Figure 108 and 109.

Amortisseur 617 shown in Figure 110 has the steam vent 619 that many designs are used for reducing noise.Shown in Figure 110-1 and 110-2 is the cross section of two kinds of profiles that may have of steam vent.In Figure 110-2, hold 617a by the hole of steam vent by any material (such as, a model seam) air-out main channel that may produce noise.Different statements is, model sews and to move to the less position of a probability producing noise from its position that may produce noise.

Figure 110 A is one and shows sealing ring 614, first connector connection part part 618 and the interactional partial cross-sectional view of latch 622.Particularly, sealing ring 614 can by the first and second corresponding projections 624, and 626 provide.In order to the object sealing or brake, the groove 618a that the first projection 624 may provide with the first connector connection part part 618 interacts.In order to the object sealing or brake, the groove 628 that the first projection 626 may provide with latch 622 interacts.As shown in Figure 110 A, sealing ring 614 comprises a groove 630 to hold in the ring 610 on bar 608 corresponding one.

Figure 110 B is the partial enlarged view of face shield assembly 600 right-hand side in Figure 110 A.The first end 612a rotating elbow 612 inserts and is contained in the first connector connection part part 618.First end 612a comprises a head member expanded in case spin-endedly turn that elbow 612 is casual from assembly to be shifted out.First end 612a at least comprises a fluting 613 and reduces diameter when inserting by resilient bending to allow the head member expanded.More suitably, there has much such fluting, such as, and four flutings.Sealing ring 614 has the first and second projections 624,626, as described above.In this case, the second projection 626 by frictional force and can rotate the excircle of elbow 612 mutually always in order to provide sealing.And rotation elbow 612 can have groove or other structure holds the second projection 626.

Figure 110 B schematically demonstrates and rotates elbow 612 and have the sealing ring 614 that rotates blocking 631.Such as, the form that blocking 631 can be a part for bar 608 is rotated.

Optional then or in addition, as shown in Figure 111, rotate elbow 612 can have the ring 633 comprising projection 634.Sealing ring 614 can be changed to have and rotate blocking 632.Consistent with this, projection 634 can be rotated until projection 634 is closed on against rotation blocking 632 along rotation elbow 612.Therefore, the motion of air delivery pipe 606 can be limited in scope predetermined in advance, such as 220 degree to 300 degree, is more preferably 250 degree to 270 degree, reduces like this or avoids the undesirable contact between air delivery pipe 606 and patient.

Figure 110 is framework, the first connector connection part part 618, bar 608, the partial cross-sectional views that sealing ring 614 and latch 622 assemble.Figure 112 shows that latch 622 is inserted in the right-hand side of cushion mat assembly 604, as shown in Figure 108.

Figure 113 shows an alternate example of the present invention, and latch and sealing ring are constructed by integrally parts there.As shown in Figure 113, sealing ring 636 comprises the edge member 638 that is well followed bar 608 profile.Have good demonstration in this viewgraph of cross-section in Figure 110, sealing ring 614 and bar 608 closely adjoin mutually wherein.

7th specific embodiment provides better be separated from Buffer Unit 604 with rotation elbow 612 for air delivery pipe 606.In addition, this embodiment provides an optional pipeline line, and it can be cushioned assembly or upside or downside or right-hand side or left-hand side.Like this, this embodiment is a less noticeable and obvious lighter example.Embodiment is above compared, and it has less parts, easierly can produce, assembles and cleans.

Rotate elbow 612 and there is a quick release mechanism (not shown).Rotate elbow 612, as shown in Figure 110 B, can install and embed mask frame 616.This structure allows, in the angle of restriction, to rotate freely, guarantee that pipe can not be positioned at an enemy and nose rests the head on uncomfortable position like this inside framework 616.

Sealing ring 614 is constructed so so that it can be coordinated mutually with the profile rotating elbow 612.In addition, sealing ring 614 is connected to the ring 610 be arranged on bar 608.Such as, the part that 631 can be configured to ring 610 is blocked in the rotation in Figure 110 B, and the first connector connection part part 618 being positioned at framework 616 both sides can rotate by opposing seal circle 614, thus corresponding location Buffer Unit 604.Sealing ring 614 is better with minimum frictional force seal rotary elbow 612.Sealing ring 614 long enough is so that the patient that the motility of patient's especially hands weakens grasps

Latch 622 can be compressed to adapt to enter sealing ring 614.Latch 622 also can be designed to compression to adapt to enter framework.Latch 622 can manufacture with hard polymer, such as, and polypropylene.Groove (not display) is provided to for mobile latch 622.Latch is at the opposite seal frame of air delivery pipe and face shield assembly.Latch 622 long enough is so that the patient that the motility of patient's especially hands weakens grasps.

Air delivery pipe 606 can be permanently connected in the one end at rotation elbow 612.But one promotes frictional connection is also applicable.Air delivery pipe 606 can be 200 millimeters to 400 millimeters long, more suitably 250 millimeters to 300 millimeters, or do not disturb any length of patient's face.

As shown in Figure 110 B and 111, accordingly, bar 608 and sealing ring 614 can have the structure that restriction rotates the angled or rotary motion of relative and the first connector connection part part 618 of elbow 612.And headband and/or bar can provide the work of air delivery pipe retentivity in order to control the position of air delivery pipe.Such as, simple Velcro belt can be used for going to draw up moving of air delivery pipe along some parts of headband.

In another example shown in Figure 108 A and 108B, air delivery pipe guard ring 900 comprises the first component 902 being connected or being connected on a belt of headband.Such as, first component 902 can for being connected to the cyclic form in the headband belt member 904 shown in Figure 108.

Can by belt being realized connecting through first component 902 before belt is buckled 906 through headband.Air delivery pipe guard ring 900 comprises the second link 908 be connected with the first link 902.Second connector connection part part 908 can manufacture with resilient plastics and be the shape shown in Figure 108 A, have one by second component 908 determined gap 910, two ends 912.The size in gap 690 is less than the diameter of air delivery pipe 606 to hold air delivery pipe 606 reliably.It is optional, the second connector connection part part 908 can for end 912 having a Velcro ring of supporting suspension hook and ring.As shown in Figure 108 A and 108B, second component can have one or more fluting 914 to hold rib 916 in air delivery conduit 606 thus the sliding axially of prevention air delivery conduit 606.Use this arrangement, air delivery conduit 606 is just fixed on certain position on patient's head reliably.

Figure 108 C is the plane graph of air delivery pipe guard ring 900, wherein has the reference coefficient of relevant portion.In Figure 108 C, show the size exemplary of air delivery pipe guard ring 900.It should be noted that the just citing for a long time of these sizes, the size being labeled in there can change positive and negative percent 20.

The nasal assembly 10,210,310,410 that front and back are discussed, 510,600 have seven advantages.Such as, nasal assembly 10,210,310,410,510 be do not give prominence to because their little overall size and weight.Nasal assembly 10,210,310,410,510,600 provide a high-caliber comfort level because minimum power to be applied on the nose of patient-and can to get rid of with contacting of patient's bridge of the nose.Nasal assembly 10,210,310,410,510,600 be easy-to-use, include minimum part and easily adjustment, such as, air induction conduit is easy to upwards extend or the extension that faces down under patient's lower jaw above patient head.Do not need to change headband to arrange, pneumatic supply just can be connected with adapter easily and dismantle from adapter.In addition, nasal assembly 10,210,310,410,510,600 allow larger mouth of pipe range of movement with the patient of applicable broad spectrum.In other words, by relative headgear assemblies rotating frame, the mouth of pipe can rotate according to the face of patient.And belt pull does not need to strengthen because of few with the contact area of face.Headband provides stability, and such as, bar helps holding surface cap assembly in the position of patient's face.The adjustable of headband is designed, and the power that such tightening belt needs can not be applied to patient's face, and such as, belt can pull in the direction that head is contrary mutually to balance.Performance that can be relatively easy and comfortable between find balance.In addition, the part count of weight, noise level and face shield assembly is reduced.

One comprises accompanying drawing and is included in the U.S.'s No. 60/529696 provisional application to the catalogue that the various aspects of the first-selected embodiment of the present invention are described, and No. 16, the applying date in JIUYUE, 2003, is authorized to here merge.With regard to the size that mark figure or catalogue comprise, these sizes are just citing for a long time, can change not leaving in described scope.

Figure 114 is the exploded view of another embodiment of the present invention.In this embodiment, similar with shown in Figure 108 to 109 of cushion mat assembly, rotates elbow 612 as the same with described in 111 at Figure 108,110B.Bar 608 comprise want and close to or widening that parts 630a is meshed and widen parts 608a for groove 630 form.In addition, bar 608 comprises the groove 608b wanting the ear 638 holding sealing ring 614.In addition, bar 608 and headband can be formed as parts.As visible in Figure 115, bar 608 and sealing ring 614 can relative to the other side's installation by adhering, such as, by arm 621.By this structure, bar and sealing ring can be avoided separately relative to the rotation of the other side.Figure 115 also show the position of the bending point p of bar, and it allows have one well to coordinate with patient.

Figure 116 to Figure 126 shows the detailed view of embodiment shown in Figure 114 and 115.Another aspect of this arrangement is the main body 609 angled skew of ring 610 relative to bar 608 of bar 608.Relatively Figure 116 and Figure 110, for example, the main body 609 in Figure 116 is distortions.Such as, the rear side 609b in front side 609a with Figure 116 in Figure 116 compares position side towards outward.This structure help the face of the bottom of bar 608 to patient is offset so that bar can closer to the face contour of following patient.

Figure 127 to Figure 130 shows a further embodiment of present invention.Similar shown in this embodiment and Figure 114 to 126.But have the difference that two main, the first, bar 612 can freely rotate 360 degree in sealing ring 614.Shown in exploded view 128, compare with shown in Figure 114, sealing ring 614 does not comprise rotation blocking 632, and bar 612 does not comprise projection 634.

The second, as shown in Figure 129, sealing ring 614 comprises a selectable detachable and insertable closing cap 614.In other words, the latch 622 in Figure 119 is made up of two parts instead of a part.Closing cap 614 can comprise steam vent, instead of the steam vent provided by cushion pad supplements.Figure 130 outputs the exploded view of closing cap 614.Because the sealing ring 614 being positioned at mouth of pipe assembly two sides is identical, if the route of patient selection elbow 612 is on left side or right side.Closing cap 614a and elbow 612 can move and exchange.In addition, consider the motility of patient, elbow 612 can be removably.

Figure 131 shows the elbow 612 of another embodiment to 133.Compare with the elbow 612 shown in Figure 114, the elbow 612 in Figure 131 to 133 comprises one or may be more the aperture 613 of a pair key shape.Elbow can manufacture with polypropylene, such as, and " Borealis " or polyester.The shape of this aperture allows to have when elbow is positioned at suitable position and is mobile the retentivity and locomotivity that improve.

And, mouth of pipe assembly and nasal mask can be protected by one with the cushion pad of its combination and protect nose cushion pad substitute.See that Figure 134 and 135, Figure 134 shows the arrangement that has the framework of relative aperture or the first connector connection part part (such as tubulose extension), each in them has sealing ring as described above.Sealing ring 500 is suitable for the first adapter that latch that is that use one disperses or entirety removes closedown hole or framework, and another sealing ring is suitable for being connected to hold rotation elbow with other frame aperture/the first adapters.Certainly, elbow and latch position can according to patient like intercourse.In Figure 135, elbow is positioned at before mask frame, and as ReMed ' sVISTA face shield, two hole/the first connector connection part parts are all by sealing ring jam-pack.Certainly, in embodiments, framework, elbow, and/or sealing ring can have suitable steam vent go remove from respiratory chamber come gas.

Pleasantly, the everyway of this invention current is completed completely and effectively.Aforesaid specific embodiment is to provide the 26S Proteasome Structure and Function principle for illustrating this invention current, instead of wants to limit this invention.By contrast, this invention current comprises all amendments in spirit and scope described in detail, improves and displacement.

Claims (138)

1., for carrying pressurized breathable gas to a user's nasal interface, comprising:

Framework, it has main body and pair of side frames component, and each side frame member comprises the first link formed with entire body;

Mouth of pipe assembly, it comprises base part and a pair mouth of pipe, and described mouth of pipe assembly is removably combined with described framework or in aggregates with described frame shape, and described a pair mouth of pipe is constructed to the nasal passage of engaging user nose hermetically in use;

Air inlet pipe, it has first end and the second end, described first end is provided with the rotary connector being connected to pressurized breathable gas source via appendix, and gas is inputted described mouth of pipe assembly so that user breathes via described mouth of pipe assembly via described framework by described second end; And

Headband, it comprises is with behind the rear portion of user's head, through the upper band at the top of user's head, and a pair sagging side band, described sagging side band is configured to extend forward along the face of user from ear, each described sagging side band has the end being connected to the second link, and described second link is attached to described first link framework and mouth of pipe assembly to be remained in patient face the position of desired adjustment

Wherein said mouth of pipe assembly can rotate to make the described mouth of pipe aim at the nasal passage of user relative to headband between multiple friction lock position.

2. nasal interface as claimed in claim 1, wherein said upper band is set up and is configured to the string of a hat on the crown of engaging user, and described rear band to be configured and size is suitable for the occipital bone band of the occiput of in use engaging user.

3. nasal interface as claimed in claim 1, is wherein roughly Y shape at upper band, each joint between rear band and sagging side band.

4. nasal interface as claimed in claim 3, wherein said rear band extends out from described joint and is formed in use a little less than horizontal angle.

5. nasal interface as claimed in claim 4, wherein said upper band extends out from described joint and is formed in use from vertical line angle slightly forward.

6. nasal interface as claimed in claim 4, is wherein with the angle between rear band to be obtuse angle on described.

7. nasal interface as claimed in claim 1, wherein each described sagging side band comprises hook and fasteners.

8. nasal interface as claimed in claim 1, each band in wherein said rear band, described upper band and described a pair sagging side band is by soft and pliable and tough composite material structure.

9. nasal interface as claimed in claim 1, does not comprise the support of the bridge of the nose for user's nose or user's forehead.

10. nasal interface as claimed in claim 1, wherein said framework, headband and mouth of pipe assembly are designed to relatively large stability force is separated substantially with relatively little sealing force.

11. nasal interfaces as claimed in claim 10, wherein said stability force is designed to act predominantly on the more insensitive region of user, comprises the rear portion of upper lip and user's head.

12. nasal interfaces as claimed in claim 11, wherein headband is configured to dispatch tube pulling force in headgear assemblies or framework, thus the sealing between the air flue avoiding or reduce pipe pulling force to jeopardize the mouth of pipe and patient.

13. nasal interfaces as claimed in claim 1, comprise further and are arranged at described main body and comprise multiple for removing CO ₂the steam vent in hole.

14. nasal interfaces as claimed in claim 1, comprise the multiple mouth of pipe assemblies being configured to be detachably connected to framework further, each mouth of pipe assembly has the mouth of pipe of different size.

15. nasal interfaces as claimed in claim 1, wherein said framework is made up of rigidity or semi-rigid material.

16. nasal interfaces as claimed in claim 15, wherein said mouth of pipe assembly is made up of silicones.

17. nasal interfaces as claimed in claim 1, wherein the first end of described air inlet pipe is positioned at the below of user's lower jaw in use.

18. nasal interfaces as claimed in claim 1, wherein said mouth of pipe assembly surrounds the main body of described framework.

19. nasal interfaces as claimed in claim 1, wherein said mouth of pipe assembly comprises single molded silicone part.

20. nasal interfaces as claimed in claim 1, wherein said mouth of pipe assembly is constructed to draw on said frame as socks.

21. nasal interfaces as claimed in claim 1, wherein said mouth of pipe assembly stretches on said frame when assembling.

22. nasal interfaces as claimed in claim 1, wherein said mouth of pipe assembly comprises the lower surface contacting user's upper lip in use.

23. nasal interfaces as claimed in claim 22, wherein said lower surface comprises the bottom profiled part being configured to match with face mask.

24. nasal interfaces as claimed in claim 1, wherein said mouth of pipe assembly is asymmetric about the axis of the opening passing laterally through the described mouth of pipe.

25. nasal interfaces as claimed in claim 1, wherein said base part comprises the opposing sidewalls interlocked to the corresponding side walls of described framework.

26. nasal interfaces as claimed in claim 25, each sidewall of wherein said base part comprises the groove holding the corresponding rib be arranged on described frame facet wall.

27. nasal interfaces as claimed in claim 1, the shape of wherein said base part makes the end of described base part have to be configured to the wing angle of the nose adapting to difform patient.

28. nasal interfaces as claimed in claim 27, wherein said wing angle in the scope of 135-155 ° to adapt to substantially flat nose, and to adapt to the nose of basic point in the scope of 70-90 °.

29. nasal interfaces as claimed in claim 27, wherein the form of the opening of each mouth of pipe is the ellipse with major axis and minor axis.

30. nasal interfaces as claimed in claim 29, the oval ratio of the ellipse wherein formed by the opening of each mouth of pipe is 0.7.

31. nasal interfaces as claimed in claim 29, wherein said wing angle is 145 °.

32. nasal interfaces as claimed in claim 1, each in wherein said a pair mouth of pipe has and is integrally formed and first that is communicated with the corresponding exit opening be arranged in described base part to described base part, and is integrally formed second of nasal passage with engaging user nose hermetically in use with described first.

33. nasal interfaces as claimed in claim 32, the form of wherein said second is the conical butt of hollow.

34. nasal interfaces as claimed in claim 32, wherein said second another part with the nasal passage sealing a part on the downside of nostril in use and enter user.

35. nasal interfaces as claimed in claim 34, wherein said second angle and the sealing area extended defining the half height of second to extend to about described mouth of pipe from the pedestal of described second.

36. nasal interfaces as claimed in claim 32, wherein said first have relative to described second reduce cross section move relative to described base part to allow the described mouth of pipe.

37. nasal interfaces as claimed in claim 32, wherein said first is configured to be used as elastic construction.

38. nasal interfaces as claimed in claim 37, wherein in use, described elastic construction before importing gas-pressurized prestrain to provide sealing force for user.

39. nasal interfaces as claimed in claim 32, wherein in use the described mouth of pipe position near or the nose of only gentle touchdown user.

40. nasal interfaces as claimed in claim 32, wherein said mouth of pipe assembly is made up of silicone elastomer.

41. nasal interfaces as claimed in claim 32, the sidewall of wherein said first and second is recessed.

42. nasal interfaces as claimed in claim 1, wherein said mouth of pipe assembly provides the sealing force that the nose to user applies, and wherein from the tension force of described headband substantially independent of described sealing force.

43. nasal interfaces as claimed in claim 1, the antetheca of wherein said mouth of pipe assembly is configured to contact on the downside of the next-door neighbour of user's nose, and the direction of final power is in use along from described next-door neighbour downside to the rear portion of user's head and the direction of the line extended the eye and ear of described user thus.

44. nasal interfaces as claimed in claim 1, the profile of wherein said mouth of pipe assembly is adapted to the barrier film of patient.

45. nasal interfaces as claimed in claim 1, wherein said mouth of pipe assembly is rotatable relative to headband.

46. nasal interfaces as claimed in claim 1, wherein said mouth of pipe assembly comprises visual detector, and described visual detector optionally can mate the reference designator that contiguous described visual detector is arranged.

47. 1 kinds, for carrying pressurized breathable gas to the nasal assembly of user, comprising:

Framework, it has main body and pair of side frames component, and each side frame member comprises the first link formed with entire body;

One silicones mouth of pipe assembly, it comprises base part and a pair mouth of pipe, described mouth of pipe assembly is removably combined with the main body of described framework or in aggregates with the main body shape of described framework, described a pair mouth of pipe is constructed in use hermetically in conjunction with the nasal passage of user's nose, wherein the described mouth of pipe can regulate rotatably local together with framework as unit near user's nose in use, aims at the nasal passage of user to make the described mouth of pipe;

Air inlet pipe, the breathable gas of pressurization is inputted described mouth of pipe assembly so that user breathes via described mouth of pipe assembly via described framework by it; And

Headband, it comprises is with behind the rear portion of user's head, through the upper band at the top of user's head, and a pair sagging side band, each described sagging side band has end and is associated with bar, described bar has the end be connected with the second link being linked in the first link, and described bar and the first link relative to each other can rotate the aligning allowed between the mouth of pipe and the nasal passage of user.

48. nasal assemblies as claimed in claim 47, wherein said upper band is set up and is configured to the string of a hat on the crown of engaging user, and described rear band to be configured and size is suitable for the occipital bone band of the occiput of in use engaging user.

49. nasal assemblies as claimed in claim 47, are wherein roughly Y shape at upper band, each joint between rear band and sagging side band.

50. nasal assemblies as claimed in claim 49, wherein said rear band extends out from described joint and is formed in use a little less than horizontal angle.

51. nasal assemblies as claimed in claim 50, wherein said upper band extends out from described joint and is formed in use from vertical line angle slightly forward.

52. nasal assemblies as claimed in claim 51, are wherein with the angle between rear band to be obtuse angle on described.

53. nasal assemblies as claimed in claim 47, wherein the length of each described sagging side band can regulate through hook and fasteners.

54. nasal assemblies as claimed in claim 51, each band in wherein said rear band, described upper band and described a pair sagging side band is by soft and pliable and tough composite material structure.

55. nasal assemblies as claimed in claim 47, do not comprise the support of the bridge of the nose for user's nose or user's forehead.

56. nasal assemblies as claimed in claim 47, wherein said framework and mouth of pipe assembly are designed to relatively large stability force is separated substantially with relatively little sealing force.

57. nasal assemblies as claimed in claim 56, wherein said sealing force acts on the nose of user, and described stability force acts predominantly on the more insensitive region of user, comprises the rear portion of upper lip and user's head.

58. nasal assemblies as claimed in claim 47, wherein the first end of described air inlet pipe is positioned at the below of user's lower jaw in use.

59. nasal assemblies as claimed in claim 47, wherein said mouth of pipe assembly surrounds the main body of described framework.

60. nasal assemblies as claimed in claim 59, the base part of wherein said mouth of pipe assembly is constructed to draw on said frame as socks.

61. nasal assemblies as claimed in claim 47, wherein said mouth of pipe assembly stretches on said frame when assembling.

62. nasal assemblies as claimed in claim 47, wherein said mouth of pipe assembly comprises the lower surface contacting user's upper lip in use.

63. nasal assemblies as claimed in claim 62, wherein said lower surface comprises the bottom profiled part being configured to match with face mask.

64. nasal assemblies as claimed in claim 47, wherein said base part comprises the opposing sidewalls interlocked to the corresponding side walls of described framework.

65. nasal assemblies as described in claim 64, the sidewall of wherein said base part comprises the groove holding the corresponding rib be arranged on described frame facet wall.

66. nasal assemblies as claimed in claim 47, the shape of wherein said base part makes the end of described base part have to be configured to the wing angle of the nose adapting to difform patient.

67. nasal assemblies as described in claim 66, wherein said wing angle in the scope of 135-155 ° to adapt to substantially flat nose, and to adapt to the nose of basic point in the scope of 70-90 °.

68. nasal assemblies as described in claim 67, comprise the multiple mouth of pipe assemblies being configured to be detachably connected to framework further, each mouth of pipe assembly has the mouth of pipe of different size.

69. nasal assemblies as described in claim 66, wherein the form of the opening of each mouth of pipe is the ellipse with major axis and minor axis.

70. nasal assemblies as described in claim 69, the oval ratio of the ellipse wherein formed by the opening of each mouth of pipe is 0.7.

71. nasal assemblies as described in claim 69, wherein said wing angle is 145 °.

72. nasal assemblies as claimed in claim 47, each in wherein said a pair mouth of pipe has and is integrally formed and first that is communicated with the corresponding exit opening be arranged in described base part to described base part, and is integrally formed second of nasal passage with engaging user nose hermetically in use with described first.

73. nasal assemblies as described in claim 72, the form of wherein said second is the conical butt of hollow.

74. nasal assemblies as described in claim 73, wherein said second another part with the nasal passage sealing a part on the downside of nostril in use and enter user.

75. nasal assemblies as described in claim 72, wherein said first has and moves relative to described base part to allow the described mouth of pipe relative to described second cross section reduced.

76. nasal assemblies as described in claim 75, wherein said first is configured to be used as elastic construction.

77. nasal assemblies as described in claim 76, wherein in use, described elastic construction before importing gas-pressurized prestrain to provide sealing force for user.

78. nasal assemblies as claimed in claim 47, wherein said mouth of pipe assembly provides the sealing force that the nose to user applies, and wherein from the tension force of described headband substantially independent of described sealing force.

79. nasal assemblies as claimed in claim 47, the antetheca of wherein said mouth of pipe assembly is configured to contact on the downside of the next-door neighbour of user's nose, and the direction of final power is in use along from described next-door neighbour downside to the rear portion of user's head and the direction of the line extended the eye and ear of described user thus.

80. nasal assemblies as claimed in claim 47, wherein in use the described mouth of pipe position near or the nose of only gentle touchdown user.

81. nasal assemblies as claimed in claim 47, the sidewall of the wherein said mouth of pipe is slightly recessed.

82. nasal assemblies as claimed in claim 47, the profile of wherein said mouth of pipe assembly is adapted to the barrier film of patient.

83. nasal assemblies as claimed in claim 47, wherein said mouth of pipe assembly can rotate unlimited regulated quantity relative to described headband and aim at the nasal passage of user to make the described mouth of pipe.

84. nasal assemblies as described in claim 83, wherein said adjustment locks by rubbing.

85. nasal assemblies as claimed in claim 47, wherein said mouth of pipe assembly comprises visual detector, and described visual detector optionally can mate the reference designator that contiguous described visual detector is arranged.

86. 1 kinds, for carrying pressurized breathable gas to the nasal interface of user, comprising:

Rigid frame, has main body and pair of side frames component, and each side frame member comprises the first link with its formation entirety;

One silicone tube mouth structure, it a pair mouth of pipe comprising common base part and extend from described base part, described nozzle structure is removably combined with described framework, and described a pair mouth of pipe is constructed to the nasal passage of engaging user nose hermetically in use; And

Headband, its described framework of support on the face user and nozzle structure, wherein said headband comprises to be with behind the rear portion of user's head, through the upper band at the top of user's head, and a pair sagging side band, each side band extends from described rear band, joint between described upper band and described sagging side band, and described sagging side band is configured to extend forward along the face of user from ear, wherein

Y shape is roughly at upper band, each joint between rear band and sagging side band,

Described rear band extends out from described joint and is formed a little less than horizontal angle in use,

Described upper band extends out from described joint and is formed from vertical line angle slightly forward in use,

On described, be with the angle between rear band to be obtuse angle,

Each side band is connected to a bar, and described bar is connected to the second link connect with the first link, and

By rotating the first link relative to the second link, the mouth of pipe locally rotatably can regulate as unit together with framework near the nasal passage of user, aims at the nasal passage of user to make the described mouth of pipe.

87. nasal interfaces as described in claim 86, each band in wherein said rear band, described upper band and described a pair sagging side band is by soft and pliable and tough composite material structure.

88. nasal interfaces as described in claim 86, wherein said nozzle structure stretches on said frame when assembling.

89. nasal interfaces as described in claim 88, wherein said base part comprises the opposing sidewalls interlocked to the corresponding side walls of described framework.

90. nasal interfaces as described in claim 89, the sidewall of wherein said base part comprises the groove holding the corresponding rib be arranged on described frame facet wall.

91. nasal interfaces as described in claim 86, wherein said nozzle structure provides the sealing force that the nose to user applies, and wherein from the tension force of described headband substantially independent of described sealing force.

92. nasal interfaces as described in claim 86, the antetheca of wherein said nozzle structure is configured to contact on the downside of the next-door neighbour of user's nose, and the direction of final power is in use along from described next-door neighbour downside to the rear portion of user's head and the direction of the line extended the eye and ear of described user thus.

93. nasal interfaces as described in claim 86, wherein said nozzle structure can rotate unlimited friction lock regulated quantity relative to described headband and aim at the nasal passage of user to make the described mouth of pipe.

94. nasal interfaces as described in claim 86, wherein said nozzle structure comprises visual detector, and described visual detector optionally can mate the reference designator that contiguous described visual detector is arranged.

95. 1 kinds, for carrying pressurized breathable gas to the nasal interface of user, comprising:

Framework, it has main body and side frame member, and each side frame member comprises the first link with its formation entirety;

Silicone tube mouth structure, it comprises base part and a pair mouth of pipe, and described nozzle structure is removably combined with described framework or in aggregates with described frame shape, and described a pair mouth of pipe is constructed in use hermetically in conjunction with the nasal passage of user's nose; And

Headband, its described framework of support on the face user and nozzle structure, described headband is connected to the second link connect with the first link,

Wherein, by rotating the first link relative to the second link, the mouth of pipe locally rotatably can regulate as unit together with framework near the nasal passage of user, aims at the nasal passage of user to make the described mouth of pipe.

96. nasal interfaces as described in claim 95, wherein said headband, framework and nozzle structure are designed to relatively large stability force is separated substantially with relatively little sealing force.

97. nasal interfaces as described in claim 95, wherein said base part comprises the opposing sidewalls interlocked to the corresponding side walls of described framework.

98. nasal interfaces as described in claim 95, the shape of wherein said base part makes wing angle between the described mouth of pipe from 70 °-90 ° or from 135 °-155 ° changes, and wherein the form of the opening of each mouth of pipe is the ellipse with major axis and minor axis.

99. nasal interfaces as described in claim 95, each in wherein said a pair mouth of pipe has and is integrally formed and first that is communicated with the corresponding exit opening be arranged in described base part to described base part, and is integrally formed second of nasal passage with engaging user nose hermetically in use with described first.

100. nasal interfaces as described in claim 95, the antetheca of wherein said nozzle structure is configured to contact on the downside of the next-door neighbour of user's nose, and the direction of final power is in use along from described next-door neighbour downside to the rear portion of user's head and the direction of the line extended the eye and ear of described user thus.

101. nasal interfaces as described in claim 95, wherein said nozzle structure can rotate unlimited friction lock regulated quantity relative to described headband and aim at the nasal passage of user to make the described mouth of pipe.

102. nasal interfaces as described in claim 95, wherein said nozzle structure comprises visual detector, and described visual detector optionally can mate the reference designator that contiguous described visual detector is arranged.

103. one kinds, for carrying pressurized breathable gas to the nasal interface of user, comprising:

Framework, has main body and side frame member, and each side frame member comprises the first link with its formation entirety;

Silicone tube mouth structure, it comprises base part and a pair mouth of pipe, and described nozzle structure is removably combined with described framework or in aggregates with described frame shape, and described a pair mouth of pipe is constructed to the nasal passage of engaging user nose hermetically in use; And

Headband, its described framework of support on the face user and nozzle structure, described headband is connected to bar, and described bar is connected to the second link connect with the first link,

Wherein by rotating the first link relative to the second link, described nozzle structure can rotate unlimited friction lock regulated quantity relative to described headband and aim at the nasal passage of user to make the described mouth of pipe, and wherein said nozzle structure can rotate around the axis be positioned at below the described mouth of pipe.

104. nasal interfaces as described in claim 103, wherein said axis extends transverse to the described mouth of pipe and substantially below the described mouth of pipe.

105. nasal interfaces as described in claim 103, wherein said framework is constructed to the below being substantially positioned at user's nose in use.

106. nasal interfaces as described in claim 103, wherein said framework and nozzle structure are designed to relatively large stability force is separated substantially with relatively little sealing force.

107. nasal interfaces as described in claim 103, comprise further and are arranged at described framework and comprise multiple for removing CO ₂the steam vent in hole.

108. nasal interfaces as described in claim 103, wherein said nozzle structure stretches on said frame when assembling.

109. nasal interfaces as described in claim 103, wherein said nozzle structure comprises the lower surface contacting user's upper lip in use.

110. nasal interfaces as described in claim 103, wherein said base part comprises the opposing sidewalls interlocked to the corresponding side walls of described framework.

111. nasal interfaces as described in claim 103, the antetheca of wherein said nozzle structure is configured to contact on the downside of the next-door neighbour of user's nose, and the direction of final power is in use along from described next-door neighbour downside to the rear portion of user's head and the direction of the line extended the eye and ear of described user thus.

112. one kinds, for carrying pressurized breathable gas to the nasal interface of user, comprising:

Framework, it has main body and pair of side frames component, and each side frame member comprises the first link formed with entire body;

Silicones mouth of pipe assembly, it a pair mouth of pipe comprising base part and be integrally formed with described base part, described mouth of pipe assembly is removably combined with described framework or in aggregates with described frame shape, and described a pair mouth of pipe is constructed to the nasal passage of engaging user nose hermetically in use;

Air inlet pipe, it has first end and the second end, described first end is provided with the rotary connector being connected to pressurized breathable gas source via appendix, and gas is inputted described mouth of pipe assembly so that user breathes via described mouth of pipe assembly via described framework by described second end; And

Headband, it comprises is with behind the rear portion of user's head, through the upper band at the top of user's head, and a pair sagging side band, described sagging side band is configured to extend forward along the face of user from ear, each described sagging side band has the end that is connected with the second link being linked in the first link framework and mouth of pipe assembly are remained on the desired position adjusted in patient face

Wherein said silicones mouth of pipe assembly can rotate to make the mouth of pipe aim at the nasal passage of user relative to described headband between multiple friction lock position.

113. nasal interfaces as described in claim 112, do not comprise the support of the bridge of the nose for user's nose or user's forehead.

114. nasal interfaces as described in claim 112, comprise further and are arranged at described main body and comprise multiple for removing CO ₂the steam vent in hole.

115. nasal interfaces as described in claim 112, wherein said base part comprises the opposing sidewalls interlocked to the corresponding side walls of described framework.

116. nasal interfaces as described in claim 112, wherein the form of the opening of each mouth of pipe is the ellipse with major axis and minor axis.

117. nasal interfaces as described in claim 112, each in wherein said a pair mouth of pipe has and is integrally formed and first that is communicated with the corresponding exit opening be arranged in described base part to described base part, and is integrally formed second of nasal passage with engaging user nose hermetically in use with described first.

118. nasal interfaces as described in claim 117, wherein said first relative to described second contraction.

119. nasal interfaces as described in claim 117, the form of wherein said second is the conical butt of hollow.

120. nasal interfaces as described in claim 117, wherein said second another part with the nasal passage sealing a part on the downside of nostril in use and enter user.

121. nasal interfaces as described in claim 117, wherein said first has and moves relative to described base part to allow the described mouth of pipe relative to described second cross section reduced.

122. nasal interfaces as described in claim 117, wherein said first is configured to be used as elastic construction.

123. nasal interfaces as described in claim 122, wherein in use, described elastic construction before importing gas-pressurized prestrain to provide sealing force for user.

124. nasal interfaces as described in claim 117, the sidewall of wherein said first and second is recessed.

125. nasal interfaces as described in claim 112, wherein described mouth of pipe assembly can rotate around the axis be positioned at below user's nose relative to headband in use.

126. nasal interfaces as described in claim 125, wherein said axis substantially extends transverse to the described mouth of pipe and is positioned at below the described mouth of pipe.

127. nasal interfaces as described in claim 112, wherein said mouth of pipe assembly is constructed to around being basically parallel to the lip of user and the axis extended can rotate.

128. one kinds, for carrying pressurized breathable gas to the nasal assembly of user, comprising:

The framework of substantially rigid, it has main body and pair of side frames component, and each side frame member comprises the first link with its formation entirety;

One silicones mouth of pipe assembly, it a pair mouth of pipe comprising base part and respectively there is elliptical openings, described mouth of pipe assembly is removably combined with the main body of described framework, and described a pair mouth of pipe is constructed in use hermetically in conjunction with the nasal passage of user's nose;

Air inlet pipe, the breathable gas of pressurization is inputted described mouth of pipe assembly so that user breathes via described mouth of pipe assembly via described framework by it;

Headband, its described framework of support on the face user and mouth of pipe assembly, described headband is connected to the second link connect with the first link, wherein by rotating the first link relative to the second link, described silicones mouth of pipe assembly can rotate the mouth of pipe is aimed at the nasal passage of user relative to described headband between multiple friction lock position; And

Steam vent, it is arranged at described main body and comprises a series of for removing CO ₂hole.

129. nasal assemblies as described in claim 128, do not comprise the support of the bridge of the nose for user's nose or user's forehead.

130. nasal assemblies as described in claim 128, wherein said mouth of pipe assembly surrounds the main body of described framework.

131. nasal assemblies as described in claim 130, the base part of wherein said mouth of pipe assembly is constructed to draw on said frame as socks.

132. nasal assemblies as described in claim 128, wherein said mouth of pipe assembly stretches in the main body of described framework when assembling.

133. nasal assemblies as described in claim 128, wherein said mouth of pipe assembly can rotate unlimited regulated quantity relative to described headband and aim at the nasal passage of user to make the described mouth of pipe.

134. nasal assemblies as described in claim 133, wherein regulate and lock by rubbing.

135. nasal assemblies as described in claim 128, wherein said mouth of pipe assembly is constructed to can rotate around the axis of the lip being basically parallel to user.

136. one kinds, for carrying pressurized breathable gas to the nasal interface of user, comprising:

Framework, it has main body and pair of side frames component, and each side frame member comprises first link integrally formed with it;

Silicone tube mouth structure, it comprises base part and a pair mouth of pipe, and described nozzle structure is removably combined with described framework, and described a pair mouth of pipe is constructed to the nasal passage of engaging user nose hermetically in use; And

Headband, its described framework of support on the face user and nozzle structure, described headband is connected to the second link connect with the first link, wherein:

By rotating the first link relative to the second link, described nozzle structure can rotate unlimited friction lock regulated quantity relative to described headband and aim at the nasal passage of user to make the described mouth of pipe, and wherein said nozzle structure can rotate around the axis be positioned at below the described mouth of pipe

Described axis substantially extends transverse to the described mouth of pipe and is positioned at below the described mouth of pipe,

Described framework comprise have multiple for removing CO ₂the steam vent in hole, and

Described base part comprises the opposing sidewalls interlocked to the corresponding side walls of described framework.

137. nasal interfaces as described in claim 136, wherein said framework is constructed to the below being substantially positioned at user's nose in use.

138. nasal interfaces as described in claim 136, wherein said framework and nozzle structure are designed to relatively large stability force is separated substantially with relatively little sealing force.