Patient interface with a seal-forming structure having varying thickness

The invention claimed is: 1. A cushion assembly for a patient interface for sealed delivery of a flow of air at a continuously positive pressure with respect to ambient air pressure to an entrance to a patient's airways including at least entrance of the patient's nares, wherein the patient interface is configured to maintain a therapy pressure in a range of about 4 cmH2O to about 30 cmH2O above ambient air pressure in use, throughout the patient's respiratory cycle, while the patient is sleeping, to ameliorate sleep disordered breathing, the cushion assembly comprising: an elastomeric support portion; an elastomeric seal-forming structure supported by the elastomeric support portion and being shaped to be bisected by a sagittal plane that includes a line tangent to the elastomeric seal-forming structure at a superior tangent point and at an inferior tangent point, the elastomeric support portion being more rigid than the elastomeric seal-forming structure, the elastomeric seal-forming structure comprising a first compliant region that includes the superior tangent point and a second compliant region separated from the first compliant region by a support region that is more rigid than the first and second compliant regions; a blowout prevention system comprising a first end that is anchored to the elastomeric support portion and a second end that is a continuation of the elastomeric seal-forming structure at the second compliant region; and a chamber defined by the elastomeric support portion and the elastomeric seal-forming structure, wherein the elastomeric seal-forming structure comprises an inner surface forming a boundary for the chamber and comprises an outer surface opposite the inner surface, and wherein the more rigid support region extends to and is anchored by the elastomeric support portion, and wherein an elastomeric wall thickness in the more rigid support region is invariable. 2. The cushion assembly of claim 1 , wherein an elastomeric wall thickness of the elastomeric seal-forming structure in the first compliant region is the same as an elastomeric wall thickness of the elastomeric seal-forming structure in the second compliant region. 3. The cushion assembly of claim 1 , wherein the first compliant region of the elastomeric seal-forming structure extends to the elastomeric support portion, and the second compliant region of the elastomeric seal-forming structure does not extend to the elastomeric support portion. 4. The cushion assembly of claim 1 , wherein the blowout prevention system is in the form of a tubular structure. 5. The cushion assembly of claim 1 , wherein the more rigid support region is positioned at a location that is superior to the blowout prevention system. 6. The cushion assembly of claim 1 , wherein the elastomeric seal-forming structure further comprises an inferior region that includes the inferior tangent point, and wherein the elastomeric wall thickness of the elastomeric seal-forming structure in the inferior region is the same as the elastomeric wall thickness in the first compliant region. 7. The cushion assembly of claim 6 , wherein the elastomeric seal-forming structure further comprises a first intermediate region that extends from the second compliant region to the inferior region, and wherein the elastomeric wall thickness of the elastomeric seal-forming structure is thicker in the first intermediate region than in the second compliant region. 8. The cushion assembly of claim 7 , wherein the elastomeric seal-forming structure further comprises a second intermediate region adjacent the first intermediate region, and wherein the elastomeric wall thickness of the elastomeric seal-forming structure is thicker in the second intermediate region than in the first intermediate region. 9. The cushion assembly of claim 8 , wherein the first intermediate region intervenes between the inferior region and the second intermediate region. 10. The cushion assembly of claim 8 , wherein the second intermediate region is positioned between the elastomeric support portion and the first intermediate region. 11. The cushion assembly of claim 1 , wherein an elastomeric wall thickness of the elastomeric seal-forming structure in the first compliant region is the same as an elastomeric wall thickness of the elastomeric seal-forming structure in the second compliant region, wherein the first compliant region of the elastomeric seal-forming structure extends to the elastomeric support portion, and the second compliant region of the elastomeric seal-forming structure does not extend to the elastomeric support portion, wherein the blowout prevention system is in the form of a tubular structure, wherein the more rigid support region is positioned at a location that is superior to the blowout prevention system, wherein the elastomeric seal-forming structure further comprises an inferior region that includes the inferior tangent point, and wherein the elastomeric wall thickness of the elastomeric seal-forming structure in the inferior region is the same as the elastomeric wall thickness in the first compliant region, wherein the elastomeric seal-forming structure further comprises a first intermediate region that extends from the second compliant region to the inferior region, and wherein the elastomeric wall thickness of the elastomeric seal-forming structure is thicker in the first intermediate region than in the second compliant region, wherein the elastomeric seal-forming structure further comprises a second intermediate region adjacent the first intermediate region, and wherein the elastomeric wall thickness of the elastomeric seal-forming structure is thicker in the second intermediate region than in the first intermediate region, wherein the first intermediate region intervenes between the inferior region and the second intermediate region, and wherein the second intermediate region is positioned between the elastomeric support portion and the first intermediate region. 12. A patient interface comprising: the cushion assembly of claim 1 ; a rigid shell removably connected to the cushion assembly; and headgear removably attached to the rigid shell. 13. A CPAP system comprising: the patient interface according to claim 12 ; a flow generator configured to pressurize a flow of gas; and an air delivery tube configured to deliver the pressurized gas to the patient interface. 14. A cushion assembly for a patient interface for sealed delivery of a flow of air at a continuously positive pressure with respect to ambient air pressure to an entrance to a patient's airways including at least entrance of the patient's nares, wherein the patient interface is configured to maintain a therapy pressure in a range of about 4 cmH2O to about 30 cmH2O above ambient air pressure in use, throughout the patient's respiratory cycle, while the patient is sleeping, to ameliorate sleep disordered breathing, the cushion assembly comprising: an elastomeric support portion; an elastomeric seal-forming structure supported by the elastomeric support portion and being shaped to be bisected by a sagittal plane that includes a line tangent to the elastomeric seal-forming structure at a superior tangent point and at an inferior tangent point, the elastomeric support portion being more rigid than the elastomeric seal-forming structure; and a chamber defined by the elastomeric support portion and the elastomeric seal-forming structure, wherein the elastomeric seal-forming structure comprises an inner surface forming a boundary for the chamber and comprises an outer surface opposite the inner surface, wherein the elastomeric sea