A portable chamber for hyperbaric/hypoxic treatment comprises a tubular body sized so as to accommodate an occupant. The tubular body is made of a non-rigid material. End frames are secured to opposed ends of the tubular body to close off the tubular body. One end frame has a door displaceable from
A portable chamber for hyperbaric/hypoxic treatment comprises a tubular body sized so as to accommodate an occupant. The tubular body is made of a non-rigid material. End frames are secured to opposed ends of the tubular body to close off the tubular body. One end frame has a door displaceable from a remainder of the end frame to provide/close access to an interior of the tubular body. Longitudinal beam members are connected at opposed ends to the end frames so as to maintain the tubular body in a taut condition between the end frames, whereby the portable chamber is in fluid communication with a pressure generator so as to receive an air supply from the pressure generator to increase a pressure in the interior of the tubular body for hyperbaric treatment.
대표청구항▼
1. A portable chamber for hyperbaric treatment comprising: a tubular body sized so as to accommodate at least one occupant, the tubular body being made of a non-rigid material and being collapsible for transportation;end frames secured to opposed ends of the tubular body to close off the tubular bod
1. A portable chamber for hyperbaric treatment comprising: a tubular body sized so as to accommodate at least one occupant, the tubular body being made of a non-rigid material and being collapsible for transportation;end frames secured to opposed ends of the tubular body to close off the tubular body, with at least one of the end frames having a door displaceable from a remainder of the end frame to provide/close access for the at least one occupant to an interior of the tubular body; anda support frame distinct from the end frames and the tubular body and configured to support the tubular body in taut condition on the ground during use, the support frame comprising a pair of shells, the pair of shells being connectable to form a case for transportation, the case being configured to receive the tubular body in collapsed condition and the end during transportation;wherein the portable chamber is configured to be in fluid communication with a pressure generator so as to receive an air supply from the pressure generator to increase a pressure in the interior of the tubular body for hyperbaric treatment. 2. The portable chamber according to claim 1, further comprising at least one longitudinal beam member detachably connectable at opposed ends to the end frames so as to maintain the tubular body in a taut condition between the end frames. 3. The portable chamber according to claim 2, comprising two of the longitudinal beam member, with each of the longitudinal beam member being extendable to an extended position in which the tubular body is in the taut condition. 4. The portable chamber according to claim 3, further comprising a locking mechanism to lock at least one of the longitudinal beam members in the extended position. 5. The portable chamber according to claim 2, wherein the at least one longitudinal beam member is separated from the end frames during transportation and received into the case. 6. The portable chamber according to claim 1, wherein the tubular body has a frusto-conical geometry, with the end frame having the door being on a larger one of the end frames. 7. The portable chamber according to claim 6, wherein when the tubular body is in collapsed condition, the end frames are nested one into another during transportation. 8. The portable chamber according to claim 1, wherein the tubular body has a cylindrical geometry, with the end frames each having a door to provide access or to close access for the at least one occupant to the interior of the tubular body. 9. The portable chamber according to claim 1, wherein the support frame incorporates the pressure generator. 10. The portable chamber according to claim 1, wherein at least one of the end frames has ring-shaped bodies sandwiching a periphery of an open end of the tubular body, with the door being supported peripherally by the ring-shaped bodies. 11. The portable chamber according to claim 10, wherein the door has a see-through panel forming a window. 12. The portable chamber according to claim 1, further comprising handrails extending between end frames in the tubular body. 13. A hyperbaric chamber system comprising: a pressure generator;a hypoxic generator;a collapsible and portable chamber, sized so as to accommodate at least one occupant, the chamber being configured to be in fluid communication with the pressure generator so as to receive a supply of air from the pressure generator to increase a pressure in the chamber for hyperbaric treatment, and to be in fluid communication with the hypoxic generator so as to receive a supply of air with a selected nitrogen/oxygen ratio to adjust an oxygen content in the chamber for hypoxic treatment;a support frame distinct from the portable chamber and configured to support the portable chamber in taut condition on the ground during use, the support frame comprising a pair of shells being connectable to form a case configured to accommodate the portable chamber in collapsed condition during transportation, the case incorporating the pressure generator, the hypoxic generator and a control system for controlling conditions in the portable chamber during hyperbaric/hypoxic treatments. 14. The hyperbaric chamber system according to claim 13, further comprising an oxygen source for outputting oxygen-rich air, the oxygen source being connectable to the chamber to feed oxygen in the chamber. 15. The hyperbaric chamber system according to claim 14, further comprising a mask in the chamber, the mask being connectable to the oxygen source to feed oxygen directly to the at least one occupant of the chamber. 16. The hyperbaric chamber system according to claim 13, wherein the chamber comprises a tubular non-rigid body and a pair of end frames, with the pressure generator, the hypoxic generator and the control system being all connectable to at least one of the end frames for fluid communication with an interior of the chamber. 17. A hyperbaric chamber system comprising: a portable chamber, sized so as to accommodate at least one occupant, the chamber being configured to be in fluid communication with a pressure generator so as to receive an air supply from the pressure generator to increase a pressure in the chamber for hyperbaric treatment, the portable chamber comprises a collapsible non-rigid tubular body maintained in a taut condition by a collapsible rigid structure; anda support frame for supporting the tubular body in taut condition on the ground during use, the support frame being distinct from the portable chamber, the support frame comprising a pair of shells being connectable to form a case for accommodating the portable chamber in a collapsed condition during transportation. 18. The hyperbaric chamber system according to claim 17, wherein the support frame incorporates the pressure generator, and a control system controlling conditions in the chamber during hyperbaric treatments.
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