Ergonomic and adjustable respiratory mask assembly with elbow assembly

What is claimed is: 1. A patient interface configured to treat sleep disordered breathing of a patient, the patient interface comprising: a frame having a circular opening to receive pressurized gas; a cushion supported on the frame and defining a breathing chamber configured to receive the pressurized gas; a support structure configured to support the patient interface on the patient's head; a plurality of gas washout holes configured to vent gas from the breathing chamber to atmosphere; and an elbow assembly comprising: a rotatable elbow that is releasably snap-fittable to the frame, the rotatable elbow having a pair of diametrically opposed flexible sides that are configured to flex upon engagement with the frame and produce an audible click when the rotatable elbow has been securely attached to the frame; and a pair of diametrically opposed finger depressable release portions that are resiliently movable towards one another to allow release of the rotatable elbow from the frame, wherein the support structure comprises a rigidizer that extends from the frame, the rigidizer having different flexibilities in different directions. 2. The patient interface of claim 1 , wherein the frame includes an annular portion surrounding the circular opening and projecting away from a front side of the frame and the rotatable elbow is snap-fittable to the annular portion. 3. The patient interface of claim 2 , wherein the annular portion includes a terminal flange and the diametrically opposed flexible sides engage around an outer rim of the terminal flange. 4. The patient interface of claim 1 , wherein the elbow assembly further comprises a swivel adapted to connect to an air delivery tube. 5. The patient interface of claim 1 , wherein the diametrically opposed flexible sides are configured to resiliently flex in a radial direction relative to the circular opening as the diametrically opposed flexible sides engage and disengage the frame. 6. The patient interface of claim 1 , wherein the diametrically opposed flexible sides are configured to move radially outwards relative to the circular opening when the rotatable elbow initially engages the frame and then radially inwards when the rotatable elbow is pushed into further engagement with the frame. 7. The patient interface of claim 1 , wherein the finger depressable release portions are textured. 8. The patient interface of claim 1 , wherein each of the diametrically opposed flexible sides comprises a ramped section configured to: radially flex relative to a flange associated with the circular opening of the frame when the elbow assembly is pushed into initial engagement with the frame, and return to an unflexed state that secures the rotatable elbow relative to the frame after the ramped sections have overcome the flange as the rotatable elbow and the frame are pushed into further engagement with one another. 9. The patient interface of claim 1 , wherein an inside surface of the circular opening of the frame engages an outside surface of the elbow assembly. 10. The patient interface of claim 1 further comprising a seal between the rotatable elbow and the frame. 11. The patient interface of claim 1 further comprising a stop that limits an insertion depth of the rotatable elbow into the circular opening of the frame. 12. The patient interface of claim 1 further comprising: a stop to limit insertion depth of the rotatable elbow into the circular opening of the frame, wherein the frame includes an annular portion surrounding the circular opening and projecting away from a front side of the frame and the rotatable elbow is snap-fittable to the annular portion, wherein the elbow assembly further comprises a swivel adapted to connect to an air delivery tube, wherein the diametrically opposed flexible sides are configured to resiliently flex in a radial direction relative to the circular opening as the diametrically opposed flexible sides engage and disengage the frame, wherein the finger depressable release portions are textured, wherein each of the diametrically opposed flexible sides comprises a ramped section configured to: radially flex relative to a flange associated with the circular opening of the frame when the elbow assembly is pushed into initial engagement with the frame, and return to an unflexed state that secures the rotatable elbow relative to the frame after the ramped sections have overcome the flange as the rotatable elbow and the frame are pushed into further engagement with one another, and wherein an inside surface of the circular opening of the frame engages an outside surface of the elbow assembly. 13. The patient interface of claim 1 , wherein the rigidizer is formed of a first material, and wherein a second material is applied to a side of the rigidizer configured to engage the patient's face, the second material being softer than the first material. 14. A patient interface configured to treat sleep disordered breathing of a patient, the patient interface comprising: a frame having a circular opening to receive pressurized gas; a cushion defining a breathing chamber to receive the pressurized gas; a support structure configured to support the patient interface on the patient's head; a plurality of gas washout holes to allow escape of CO 2 from the breathing chamber; and an elbow assembly having a frame engaging end at least partly insertable into the circular opening, the elbow assembly having a quick release mechanism with a pair of diametrically opposed flexible sides that are configured to flex upon engagement with the frame so that the quick release mechanism is releasably snap-fittable to the frame with an audible click signaling that the elbow assembly has been securely attached to the frame, wherein the elbow assembly includes a pair of diametrically opposed finger depressable release portions that are resiliently movable towards one another to allow release of the quick release mechanism from the frame, and wherein the support structure comprises a rigidizer that extends from the frame, the rigidizer having different flexibilities in different directions. 15. The patient interface of claim 14 , wherein the diametrically opposed flexible sides are configured to resiliently flex in a radial direction relative to the circular opening as the diametrically opposed flexible sides engage and disengage the frame. 16. The patient interface of claim 14 , wherein the diametrically opposed flexible sides are configured to move radially outwards relative to the circular opening when the rotatable elbow initially engages the frame and then radially inwards when the elbow assembly is pushed into further engagement with the frame. 17. The patient interface of claim 14 , wherein each of the diametrically opposed flexible sides comprises a ramped section configured to: radially flex relative to a flange associated with the circular opening of the frame when the elbow assembly is pushed into initial engagement with the frame, and return to an unflexed state that secures the elbow assembly relative to the frame after the ramped sections have overcome the flange as the elbow assembly and the frame are pushed into further engagement with one another. 18. The patient interface of claim 14 , wherein an inside surface of the circular opening of the frame engages an outside surface of the elbow assembly. 19. The patient interface of claim 14 further comprising a seal between the elbow assembly and the frame. 20. The patient interface of cla