The invention relates to a respiratory mask arrangement, of the kind that can be used for instance in CPAP therapy for the treatment of sleep-related breathing disorders. The invention also relates to a headband arrangement for a respiratory mask and to a respiratory gas evacuation device for a respiratory mask arrangement, for evacuating CO2-laden respiratory mask.
In the aforementioned CPAP therapy, a breathable gas, in particular ambient air, can be delivered to a patient via a respiratory mask at a pressure level that is above the ambient pressure level. By means of the respiratory gas that is under pressure, a pneumatic tracking of the upper airways can be attained, and any obstructions can thereby be averted. In carrying out a pressurized breathing or CPAP therapy, the respiratory mask arrangements required for delivering the respiratory gas are typically worn by the patient for the entire duration of the patient's sleeping or resting phase. The respiratory mask arrangement is typically braced via a sealing lip zone in the region surrounding the mask user's nose and via a forehead-mounted device in the region of the make user's forehead. The retention forces required to apply the respiratory mask arrangement may be brought to bear by a fixation device, which for example has a headband that extends around the back of the mask user's head. The evacuation of the respiratory gas, which may be laden with CO2, from the interior region of the respiratory mask can be done via bores whose open cross section is defined such that a sufficiently great outflow of the respiratory gas is made possible.
It is the object of the invention to furnish embodiments by which a reliable evacuation of CO2-laden respiratory gas from the interior region of a respiratory mask arrangement is advantageously assured.
In a first aspect, A respiratory mask arrangement having a sealing lip device for resting on the facial surface of a mask user, a covering device which in cooperation with the sealing lip device defines a mask interior, a respiratory gas evacuation device for delivering respiratory gas to the mask interior defined by the covering device, this mask interior communicating with the nostril and/or the oral opening of the mask user; the covering device is embodied at least in some portions as a permeable structure.
It thus becomes advantageously possible to create a respiratory mask arrangement which furnishes a gas outflow area that enables a diffuse outflow of gas while emitting little noise.
The covering device is preferably made from an air-permeable woven material, in particular Gore-Tex material. As an alternative to this provision, or in combination with it, it is also possible to make the covering device from a porous material.
Especially advantageously, the covering device is made from a flexible material which is deployed in the mask interior under the influence of pressure. The air permeability of the air-permeable material and the area of the portion defined thereby are selected such that a sufficient outflow of gas from the mask interior is assured.
The covering device or the sealing lip device may be coupled with a headband arrangement. The headband arrangement itself may likewise be used to furnish a gas outflow area. This gas outflow area can be formed by a hoselike zone of an air-permeable hose material.
The sealing lip device is preferably glued or vulcanized or sprayed onto the covering device. It is also possible to couple the covering device detachably with the sealing lip device, or to embody the sealing lip device integrally with the covering device. It is possible to deploy the covering device by means of supporting wall structures.
The covering device may also have a hard shell body and a woven outlet portion coupled to the hard shell body. This woven outlet portion preferably has an area of at least 3.7 cm2.
The invention also relates to a headband arrangement for a respiratory mask; the headband arrangement in at least some portions is made of an air-permeable material and includes a conduit unit which is in communication with a mask interior defined by the respiratory mask, in such a manner that an outflow from the mask interior of respiratory gas that is under pressure can be effected through the air-permeable material portion provided in the headband.
Advantageous features of this invention are the subject of the dependent claims.
The object stated initially above is also attained, in a further aspect, by a respiratory mask arrangement having an arched member, a sealing lip device for resting on the facial surface of a mask user, and a respiratory gas conduit unit for delivering respiratory gas to a mask interior that is defined by the arched member and is in communication with the nostril and/or the oral opening of the mask user; in cooperation with the arched member, an air guide path is defined that extends from a respiratory gas inlet area to a respiratory gas outlet area and extends at least in some portions along a wall defining the arched member.
As a result, it advantageously becomes possible to create a respiratory mask arrangement that is easily cleaned and is distinguished by low noise and an only slight idle volume.
Further details and characteristics of the invention will become apparent from the ensuing description in conjunction with the drawings. Shown are:
The respiratory mask arrangement shown in
The covering device 2 is embodied such that in cooperation with the sealing lip device 1, it defines a mask interior. The mask interior is in communication with a respiratory gas conduit unit 3, for delivering respiratory gas to the defined by the covering device and communicating with the nostril and/or the oral opening of the mask user. The covering device is embodied in at least some portions as an air-permeable woven structure. The respiratory gas conduit unit 3 forms a connection stub for coupling a respiratory gas hose. The respiratory mask arrangement shown serves to deliver respiratory gas at a pressure level that is above the ambient pressure. Under the influence of the pressure, the covering device 2 is deployed in the mask interior between its peripheral attachment points, that is, between the sealing lip device 2 and the respiratory gas conduit unit 3.
It is also possible to place the covering device on a ribbed structure, or to embody it as an insert element for a hard shell.
Instead of a woven material, nonwoven or filter materials or other kinds of porous materials may be used, such as micro perforated plastic films.
The respiratory masks described can be secured by means of headband arrangements. These headband arrangements can be used to evacuate respiratory gas, because they have air-permeable zones which communicate with the mask interior via a conduit unit.
The respiratory mask arrangement shown in
The arched member is embodied such that it defines an air guide path 23, which extends from a respiratory gas inlet area E to a respiratory gas outlet area A, and extends at least in some portions along a wall that defines the arched member 22.
The air guide path 23 is defined, toward the mask interior region, by an insert element 24. The arched member 22 is also provided with a fixation device, for installing the insert element 24. A covering portion 24a is embodied on the insert element 24 and rests on a fluted conduit structure 25, which is embodied in the inner region of the sealing lip device 21.
As can be seen from
As can be seen from
As can be seen from
It is also possible to accomplish the fixation of the insert element by means of pegs or other retention means.
The insert element is embodied here by a low rectangular body. It is also possible to design the insert element in some other way, in particular as a cylindrical disk or as a polygonal prism. The insert element can also be designed such that certain throttling effects are obtained as a result of its position on the arched member.
The insert element may also be designed such that as a function of the internal pressure, various flow resistances are obtained, in particular by deformation of the conduit portions 27.
Number | Date | Country | Kind |
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103 31 134.3 | Jul 2003 | DE | national |
103 35 162.0 | Jul 2003 | DE | national |
PCT/EP2004/007599 | Jul 2004 | EP | regional |
This application is a continuation of U.S. application Ser. No. 10/563,857, filed Jul. 10, 2006, which was the U.S. national phase application of International Application No. PCT/EP2004/007599, filed Jul. 9, 2004, which claims the benefit of German Application No. 103 31 134.3, filed Jul. 9, 2003 and German Application No. 103 35 162.0, filed Jul. 30, 2003, each of which is hereby incorporated herein by reference in its entirety.
Number | Date | Country | |
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Parent | 10563857 | Jul 2006 | US |
Child | 15725023 | US |