An oscillating positive expiratory pressure apparatus having a housing defining a chamber, a chamber inlet, a chamber outlet, a deformable restrictor member positioned in an exhalation flow path between the chamber inlet and the chamber outlet, and an oscillation member disposed within the chamber.
An oscillating positive expiratory pressure apparatus having a housing defining a chamber, a chamber inlet, a chamber outlet, a deformable restrictor member positioned in an exhalation flow path between the chamber inlet and the chamber outlet, and an oscillation member disposed within the chamber. The deformable restrictor member and the oscillation member are moveable between an engaged position, where the oscillation member is in contact with the deformable restrictor member and an disengaged position, where the oscillation member is not in contact with the deformable restrictor member. The deformable restrictor member and the oscillation member move from the engaged position to the disengaged position in response to a first exhalation pressure at the chamber inlet, and move from the disengaged position to an engaged position in response to a second exhalation pressure at the chamber inlet.
대표청구항▼
1. An oscillating positive expiratory pressure apparatus comprising: a housing defining a chamber,a chamber inlet configured to receive exhaled air into the chamber;a chamber outlet configured to permit exhaled air to exit the chamber;an exhalation flow path defined between the chamber inlet and the
1. An oscillating positive expiratory pressure apparatus comprising: a housing defining a chamber,a chamber inlet configured to receive exhaled air into the chamber;a chamber outlet configured to permit exhaled air to exit the chamber;an exhalation flow path defined between the chamber inlet and the chamber outlet;an elastic lip surrounding an opening in the lip through which the exhalation flow path passes; and,a contact surface positioned adjacent to and in engagement with the elastic lip;wherein the elastic lip is resiliently expandable in response to an increase in exhalation pressure at the chamber inlet from an engaged position, where the flow of air through the opening is restricted, to a disengaged position, where the flow of air through the opening is less restricted; and,wherein the elastic lip is configured to repeatedly expand and contract between the engaged position and the disengaged position during a flow of air along the exhalation flow path during a single period of exhalation such that an oscillating back pressure is transmitted to a respiratory system of a user. 2. The oscillating positive expiratory pressure apparatus of claim 1, wherein the elastic lip is resiliently contractable in response to a decrease in exhalation pressure at the chamber inlet. 3. The oscillating positive expiratory pressure apparatus of claim 1, wherein the contact surface is configured to move with the elastic lip while the lip is in the engaged position. 4. The oscillating positive expiratory pressure apparatus of claim 3 further comprising a biasing member configured to bias the contact surface in to the engaged position with the elastic lip. 5. The oscillating positive expiratory pressure apparatus of claim 4, wherein the biasing member comprises a spring. 6. The oscillating positive expiratory pressure apparatus of claim 4, wherein the biasing member comprises at least one pair of magnets, a first magnet of the at least one pair of magnets being connected to the contact surface and a second magnet of the at least one pair of magnets being connected to the housing. 7. The oscillating positive expiratory pressure apparatus of claim 4, wherein the position of the biasing member is selectively moveable to adjust the amount of bias. 8. The oscillating positive expiratory pressure apparatus of claim 3, wherein the contact surface is positioned on an oscillation member mounted about a glide surface, the glide surface extending from the housing into the chamber such that movement of the contact surface is substantially limited to reciprocal movement. 9. The oscillating positive expiratory pressure apparatus of claim 1, wherein the contact surface further comprises at least one channel adapted so that the exhalation flow path is not completely restricted when the elastic lip and the contact surface are in the engaged positioned. 10. The oscillating positive expiratory pressure apparatus of claim 1 further comprising a mouthpiece connected to the housing and in fluid communication with the chamber inlet. 11. The oscillating positive expiratory pressure apparatus of claim 10, wherein the mouthpiece has a cross-sectional area greater than a cross-sectional area of the chamber inlet. 12. The oscillating positive expiratory pressure apparatus of claim 1, wherein the housing comprises a first portion and a second portion, the second portion being removably connected to the first portion. 13. The oscillating positive expiratory pressure apparatus of claim 1 further comprising a respiratory portal for receiving an aerosol medicament into the chamber. 14. The oscillating positive expiratory pressure apparatus of claim 13, wherein the contact surface further comprises a one-way valve configured to permit the aerosol medicament to enter the chamber through the respiratory portal, the respiratory portal being in fluid communication with the chamber inlet when the one-way valve is open. 15. An oscillating positive expiratory pressure apparatus comprising: a housing defining a chamber;a chamber inlet configured to receive exhaled air into the chamber;a chamber outlet configured to permit exhaled air to exit the chamber;a restrictor member positioned in the housing, the restrictor member having an orifice formed through the restrictor member;an exhalation flow path defined between the chamber inlet and the chamber outlet, the exhalation flow path passing through the orifice of the restrictor member; and,wherein the orifice is expandable from a smaller size to a larger size in response to a first exhalation pressure at the chamber inlet, and resiliently contractable from the larger size to the smaller size in response to a second pressure at the chamber inletwherein the orifice is configured to repeatedly expand and contract between the smaller size and the larger size during a flow of air along the exhalation flow path during a single period of exhalation such that an oscillating back pressure is transmitted to a respiratory system of a user. 16. The oscillating positive expiratory pressure device of claim 15 further comprising a contact surface, wherein the restrictor member is engaged with the contact surface when the orifice is the smaller size and disengaged from the contact surface when the orifice is the larger size. 17. The oscillating positive expiratory pressure device of claim 16 further comprising a biasing member positioned to bias the restrictor member and the contact surface in to the engaged position. 18. The oscillating positive expiratory pressure device of claim 15, wherein the first exhalation pressure is greater than the second pressure. 19. A method of performing oscillating positive expiratory pressure therapy, the method comprising: passing a flow of exhaled air along an exhalation flow path defined between an inlet and an outlet of a chamber in an oscillating positive expiratory pressure device;restricting the flow of exhaled air along the exhalation flow path by maintaining an elastic lip surrounding an opening through which the exhalation flow path passes in an engaged position with a contact surface;unrestricting the flow of exhaled air along the exhalation flow path by expanding the elastic lip to a disengaged position, wherein the elastic lip is not in contact with the deformable restrictor member; and,returning the elastic lip to the engaged position by resiliently contracting the elastic lipwherein the elastic lip is configured to repeatedly expand and contract between the engaged position and the disengaged position during the flow of exhaled air along the exhalation flow path during a single period of exhalation such that an oscillating back pressure is transmitted to a respiratory system of a user. 20. The method of claim 19, wherein the elastic lip expands in response to a first exhalation pressure at the chamber inlet, and contracts in response to a second pressure at the chamber inlet, the first exhalation pressure being greater than the second pressure. 21. The method of claim 19, further comprising moving the contact surface in a first direction while the elastic lip expands. 22. The method of claim 21, further comprising biasing the contact surface in a second direction opposite the first direction.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (111)
Hughes Arthur R., Acoustic respiratory therapy apparatus.
Schmidt James N.,CAX ; Grychowski Jerry ; Engelbreth Daniel K.,CAX ; Morton Robert,CAX ; Foley Martin P.,CAX, Aerosol medication delivery apparatus and system.
Truitt,Patrick W.; Truschel,William A.; Hete,Bernie F.; Bobeck,Michael; Haas,Michael W., Apparatus and method for providing high frequency variable pressure to a patient.
Truitt, Patrick W.; Truschel, William A.; Hete, Bernie F.; Bobeck, Michael; Haas, Michael W., Apparatus and method of providing high frequency variable pressure to a patient.
Goldshtein, Yakov Abrammerovich; Dyshko, Boris Aronovich; Kashirin, Alexandr Ivanovich; Kochergin, Alexandr Borisovich; Panteleev, Igor Vladimirovich, Breath training device.
Howe Harvey James (8914 Higdon Dr. Vienna VA 22182) Madden Craig Jonathan (1172 Southview Dr. Annapolis MD 21401) Rosenthal Richard Raphzel (P.O. Box 769 Great Falls VA 22066), Flexible valve for administering constant flow rates of medicine from a nebulizer.
Bailey James C. (Yellow Springs OH) Boehmer Dennis A. (Xenia OH) Atkinson Gordon E. (Cedarville OH), Low pressure check valve for artificial respiration devices.
Cardinal Pierre (Gatineau CAX) Carscallen William E. (Ottawa CAX) Ireland Robert (Ramsay CAX), Method and apparatus for assisting expulsional movement of pulmonary secretions via supramaximal flows.
Niles Rex A. (Oneida NY) McHenry Ronald (E. Syracuse NY) Puderbaugh George (Manlius NY) Scheuermann Stephen J. (Oneida NY), Positive expiratory pressure device.
Pelerossi, Richard K.; King, Gregory S.; Foran, Jennifer M.; Weinstein, Lawrence A.; Richards, Fredrick M.; Zirps, Christopher T.; Elden, Robert H., Positive expiratory pressure device.
Pelerossi, Richard K.; King, Gregory S.; Foran, Jennifer M.; Weinstein, Lawrence A.; Richards, Fredrick M.; Zirps, Christopher T.; Elden, Robert H., Positive expiratory pressure device with bypass.
Truitt,Patrick W; Lordo,Richard J; Gesner,Joseph J, Pressure support system and method and a pressure control valve for use in such a system and method.
Tuitt, Patrick W.; Lordo, Richard J.; Gesner, Joseph J., Pressure support system and method and a pressure control valve for use in such system and method.
Dunsmore, Thomas J.; Wise, Geoffrey C.; Wilschke, Thomas C.; Matice, Christopher J.; Gillum, Christoph L.; Read, Shannon Rice, Respiratory therapy device and method.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.