Vent device for use with a respiratory device

The invention claimed is: 1. A vent device suitable for use with a respiratory device for delivering a supply of air or breathable gas to the entrance of a patient's airways for the amelioration or treatment of a respiratory disorder comprising: a first vent comprising a first size adjustable central aperture on a plenum chamber of a mask; a second vent comprising a second size adjustable central aperture on the plenum chamber of the mask with said first vent; a first actuator assembly on the mask to automatically vary a first property of the first vent in response to a first control system signal for adjusting the central aperture of the first vent; and a second actuator assembly on the mask to automatically vary a second property of the second vent in response to a second control system signal for adjusting the central aperture of the second vent, wherein a size of the central aperture of the first vent and a size of the central aperture of the second vent are configured to be controlled by a control system configured to control an operation of the first actuator assembly and the second actuator assembly, and wherein the operation is configured to change the size of the central aperture of the first vent distinctly from the size of the central aperture of the second vent by coordinating (a) an increase in size of the central aperture of one of the first vent and the second vent, with (b) a decrease in size of the central aperture of the other one of the first vent and the second vent. 2. The vent device of claim 1 , wherein the first property of the first vent and/or the second property of the second vent are impedance values to a flow of air or breathable gas passing therethrough. 3. The vent device of claim 1 , wherein the first property of the first vent and/or the second property of the second vent are cross-sectional areas for a flow of air or breathable gas to pass therethrough. 4. The vent device of claim 1 , further comprising: a sensor adapted to generate a first signal, and wherein the first signal is processed to determine the first property of the first vent and/or the second property of the second vent to generate the first control system signal. 5. The vent device of claim 1 configured to couple with a patient conduit or a patient interface. 6. A patient interface comprising the vent device as claimed in claim 1 . 7. A patient conduit comprising the vent device as claimed in claim 1 . 8. The vent device of claim 1 , wherein the operation is configured to result in the increase in size of the central aperture of the one vent simultaneously with a decrease in size of the central aperture of the other vent. 9. A vent device suitable for use with a respiratory device for delivering a supply of air or breathable gas to the entrance of a patient's airways for the amelioration or treatment of a respiratory disorder comprising: a first vent configured with a first variable cross-section area on a plenum chamber of a mask for communicating a flow of breathable gas, the first vent including a first actuator assembly on the mask to automatically vary the first variable cross-section area in response to a first control system signal for adjusting the first variable cross-section area; a second vent configured with a second variable cross-section area on a plenum chamber of the mask with the first vent, the second vent including a second actuator assembly on the mask to automatically vary the second variable cross-section area in response to a second control system signal for adjusting the second variable cross-section area; a control system configured to set the first vent and the second vent; and a first sensor configured to output a first signal; wherein the vent device is configured so that the first cross-section area and/or the second cross-section area are determined as a function of the first signal, wherein the control system is configured to control an operation of the first actuator assembly and the second actuator assembly, and wherein the operation is configured to change a size of the central aperture of the first vent distinctly from a size of the central aperture of the second vent by coordinating (a) an increase in size of the cross-section area of one of the first vent and the second vent, with (b) a decrease in size of the cross section area of the other one of the first vent and the second vent. 10. The vent device of claim 9 , further comprising a second sensor configured to output a second signal, wherein the first signal indicates a noise level of the first vent and the second signal indicates a noise level of the second vent, and the first cross-section area is determined as a function of the first signal, and the second cross-section area is determined as a function of the second signal. 11. A patient interface comprising the vent device as claimed in claim 10 . 12. The vent device of claim 10 , wherein the first signal is generated by a first microphone and the second signal is generated by a second microphone. 13. The vent device of claim 9 , wherein the first signal indicates an orientation of the vent device. 14. The vent device of claim 13 , wherein the first signal is generated by an accelerometer. 15. The vent device of claim 9 , wherein the first signal indicates a pressure of the flow of the supply of breathable gas. 16. The vent device of claim 9 , wherein the first signal indicates a flow rate of the supply of breathable gas. 17. The vent device of claim 9 , wherein the first vent and the second vent each comprise: a plurality of leaves forming a controlled variable size area for communication of a flow of breathable gas therethrough from a plenum chamber of the mask to atmosphere, the plurality of leaves forming a surface around the area; and the cross-section profile of each outer leaf surface that is exposed to the flow of breathable gas traversing therethrough remains constant as the size of the area is varied. 18. The vent device of claim 17 configured to couple with a patient conduit or a patient interface. 19. A patient interface comprising the vent device as claimed in claim 17 . 20. A patient conduit comprising the vent device as claimed in claim 17 . 21. The vent device of claim 9 configured to couple with a patient conduit or a patient interface. 22. A patient interface comprising the vent device as claimed in claim 9 . 23. A patient conduit comprising the vent device as claimed in claim 9 . 24. The vent device of claim 9 , wherein the first cross-section area is set to be a different area from the second cross-section area. 25. A patient interface of claim 24 wherein the first vent and the second vent are located on different sides of the patient interface so that they are approximately symmetrical about a sagittal plane of the patient interface. 26. The vent device of claim 9 , wherein the operation is configured to result in the increase in size of the central aperture of the one vent simultaneously with a decrease in size of the central aperture of the other vent. 27. The vent device of claim 9 , wherein the operation is configured to result in the increase in size of the central aperture of the one vent and the decrease in size of the central aperture of the other vent based on a comparison of the first signal with the second signal.