Oscillating positive expiratory pressure device

What is claimed is: 1. A respiratory treatment device comprising: an inlet configured to receive exhaled air into the device; an outlet configured to permit air to exit the device; an opening positioned in an exhalation flow defined between the inlet and the outlet; a restrictor member configured to rotate relative to the opening between a closed position where the flow of air through the opening is restricted, and an open position where the flow of air through the opening is less restricted; and, a vane configured to rotate the restrictor member between the closed position and the open position in response to the flow of air between the inlet and the outlet; wherein the restrictor member and the vane have a combined center of gravity positioned to bias the restrictor member to the closed position during a period of no air flow through the opening. 2. The respiratory treatment device of claim 1 , wherein the vane and the restrictor member are offset along an axis of rotation. 3. The respiratory treatment device of claim 1 , wherein the vane is planar. 4. The respiratory treatment device of claim 1 , wherein an angle between a face of the restrictor member and the vane is an acute angle. 5. The respiratory treatment device of claim 1 , wherein an angle between a face of the restrictor member and the vane is an obtuse angle. 6. The respiratory treatment device of claim 1 , wherein an angle between a face of the restrictor member and the vane is a right angle. 7. The respiratory treatment device of claim 1 , wherein the restrictor member and the vane are rotatable about an axis of rotation perpendicular to a direction of the flow of air through the opening. 8. The respiratory treatment device of claim 1 , wherein the restrictor member and the vane are not rotatable through a complete revolution. 9. A respiratory treatment device comprising: an inlet configured to receive exhaled air into the device; an outlet configured to permit air to exit the device; an opening positioned in an exhalation flow path defined between the inlet and the outlet, a restrictor member configured to move relative to the opening between a closed position where the flow of air along the exhalation flow path is restricted, and an open position where the flow of air along the exhalation flow path is less restricted; a vane configured to move the restrictor member between the closed position and the open position in response to the flow of air along the exhalation flow path; and, an orifice positioned adjacent the vane, the exhalation flow path passing through the orifice, the orifice having a cross sectional area less than a cross sectional area of the inlet; wherein the restrictor member and the vane have a combined center of gravity positioned to bias the restrictor member to the closed position during a period of no air flow along the exhalation flow path. 10. The respiratory treatment device of claim 9 , wherein a cross sectional area of the exhalation flow path decreases in a direction of the flow of air along the exhalation flow path leading to the orifice. 11. The respiratory treatment device of claim 9 , wherein a velocity of the flow of air through the orifice is greater than a velocity of the flow of air received at the inlet. 12. The respiratory treatment device of claim 9 , wherein the restrictor member and the vane are rotatable about an axis of rotation perpendicular to a direction of the flow of air through the orifice. 13. The respiratory treatment device of claim 9 , wherein the vane and the restrictor member are offset along an axis of rotation. 14. A respiratory treatment device comprising: an inlet configured to receive exhaled air into the device; an outlet configured to permit air to exit the device; an opening positioned in an exhalation flow path defined between the inlet and the outlet, a restrictor member configured to move relative to the opening between a closed position where a flow of air along the exhalation flow path is restricted, and an open position where the flow of air along the exhalation flow path is less restricted; a vane configured to move the restrictor member between the closed position and the open position in response to the flow of air along the exhalation flow path, the vane having an axis of rotation; and, an orifice positioned adjacent the vane, the exhalation flow path passing through the orifice, wherein a direction of the flow of air through the orifice is aligned with the axis of rotation of the vane; wherein the restrictor member and the vane have a combined center of gravity positioned to bias the restrictor member to the closed position during a period of no air flow along the exhalation flow path. 15. The respiratory treatment device of claim 14 , wherein the axis of rotation of the vane is perpendicular to the direction of the flow of air through the orifice. 16. The respiratory treatment device of claim 14 , wherein the vane and the restrictor member are offset along the axis of rotation of the vane. 17. The respiratory treatment device of claim 14 , wherein the vane is planar. 18. The respiratory treatment device of claim 14 , wherein the restrictor member and the vane are not rotatable through a complete revolution. 19. The respiratory treatment device of claim 14 , wherein an angle between a face of the restrictor member and the vane is an acute angle. 20. The respiratory treatment device of claim 14 , wherein an angle between a face of the restrictor member and the vane is an obtuse angle.