A conduit for a breathing circuit includes a heater associated, at least in part, with a hydrophilic layer. The purpose of the heater is to evaporate any condensed liquid collecting in the conduit, which is first sucked up by the hydrophilic layer. The heated wick reduces the risk of collected water
A conduit for a breathing circuit includes a heater associated, at least in part, with a hydrophilic layer. The purpose of the heater is to evaporate any condensed liquid collecting in the conduit, which is first sucked up by the hydrophilic layer. The heated wick reduces the risk of collected water being passed to the patient and causing choking fits or discomfit. It is preferred that the heated wick lies freely in the conduit to settle at low points in the conduit where condensation may collect.
대표청구항▼
1. A single expiratory tube forming an expiratory limb for a breathing circuit, the single expiratory tube comprising: at a first end of the single expiratory tube, a patient-end connector, configured to connect to a Y connector and receive a flow of respiratory gases expired by a patient from the Y
1. A single expiratory tube forming an expiratory limb for a breathing circuit, the single expiratory tube comprising: at a first end of the single expiratory tube, a patient-end connector, configured to connect to a Y connector and receive a flow of respiratory gases expired by a patient from the Y connector, the flow of gases expired by the patient defining an expiratory gases flow;at a second end of the single expiratory tube, a ventilator-end connector, configured to connect to a breathing conduit connection port, and configured to deliver the expiratory gases flow to a ventilator;an enclosing outer wall forming a singular flexible gases conduit defining a flow passageway between the patient-end connector and the ventilator-end connector, such that, when in use, the expiratory gases flow passes through the patient-end connector, into the singular flexible gases conduit, and through the ventilator-end connector; andan elongate heater wire within the singular flexible gases conduit,wherein the enclosing outer wall comprises a semipermeable material that allows passage of water vapor through the enclosing outer wall directly from the flow passageway to ambient without allowing passage of liquid water through the enclosing outer wall and wherein the semipermeable material runs a length of the enclosing outer wall between the patient-end connector and the ventilator-end connector. 2. The expiratory tube of claim 1, wherein the heater wire is doubled back within the singular flexible gases conduit, such that both ends of the heater wire are proximal one end of the expiratory limb, allowing a single end connection of the heater wire to an energizing source. 3. The expiratory tube of claim 1, wherein the heater wire is coated. 4. The expiratory tube of claim 3, wherein the coating is insulating. 5. The expiratory tube of claim 1, wherein the expiratory limb includes no drainage ports for draining liquid water. 6. The expiratory tube of claim 1, wherein the enclosing outer wall is resistant to compression. 7. The expiratory tube of claim 6, wherein the enclosing outer wall comprises at least one reinforcement structure configured to provide the resistance to compression. 8. The expiratory tube of claim 1, wherein the heater wire lies freely within said singular flexible gases conduit, such that said heater wire settles over at least some of its length at low points in said singular flexible gases conduit where liquid water may collect. 9. The expiratory tube of claim 1, wherein at least one of the patient-end connector and the ventilator-end connector comprises a socket for receiving a plug from a voltage source. 10. The expiratory tube of claim 1, wherein the enclosing outer wall is extruded as a continuous tube. 11. The expiratory tube of claim 1 wherein an entirety of the enclosing outer wall comprises the semipermeable material. 12. Components for a breathing circuit, comprising: a Y connector configured to deliver an inspiratory flow of respiratory gases to a patient and receive an expiratory flow of respiratory gases expired by the patient;an inspiratory tube configured to deliver the inspiratory flow of respiratory gases to the Y connector, the inspiratory tube comprising a singular flexible inspiratory gases passageway through which the inspiratory flow of respiratory gases passes when in use, andan elongate inspiratory heater wire within the singular flexible inspiratory gases passageway; anda single, unitary, expiratory tube configured to receive the expiratory flow of respiratory gases from the Y connector and provide it to at least one other respiratory assistance system component, the expiratory tube comprising a first end configured to connect with the Y connector,an enclosing outer wall defining a singular flexible expiratory gases passageway through which the expiratory flow of respiratory gases passes when in use,an elongate expiratory heater wire within the singular flexible expiratory gases passageway, anda second end configured to connect with at least one other respiratory assistance system component;wherein a length of the enclosing outer wall running between the first end and the second end of the expiratory tube is of a semipermeable material that allows passage of water vapor without allowing passage of liquid water through the enclosing outer wall. 13. The components for a breathing circuit of claim 12, wherein at least one of the inspiratory heater wire and the expiratory heater wire has a doubled back configuration. 14. The components for a breathing circuit of claim 12, wherein at least one of the inspiratory heater wire and the expiratory heater wire is coated. 15. The components for a breathing circuit of claim 14, wherein the coating is insulating. 16. The components for a breathing circuit of claim 12, wherein the single expiratory tube includes no drainage ports for draining liquid water. 17. The components for a breathing circuit of claim 12, wherein the enclosing outer wall is resistant to compression. 18. The components for a breathing circuit of claim 12, wherein the inspiratory tube further comprises a first connector comprising a first socket for receiving a first electrical plug, and the expiratory tube further comprises a second connector comprising a second socket for receiving a second electrical plug. 19. The components for a breathing circuit of claim 12, wherein the enclosing outer wall is extruded as a continuous tube. 20. The components for a breathing circuit of claim 12 wherein an entirety of the enclosing outer wall comprises the semipermeable material.
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