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The gases temperature supplied to a patient when the patient is undergoing treatment such as oxygen therapy or positive pressure treatment for conditions such as Obstructive Sleep Apnea (OSA) or Chronic Obstructive Pulmonary Disease (COPD) is often measured for safety and to enable controlling of th

The gases temperature supplied to a patient when the patient is undergoing treatment such as oxygen therapy or positive pressure treatment for conditions such as Obstructive Sleep Apnea (OSA) or Chronic Obstructive Pulmonary Disease (COPD) is often measured for safety and to enable controlling of the humidity delivered to the patient. The apparatus is related to measurement of properties, particularly temperature (thermister 23), of gases flowing through a heated tube (3), supplying gases to a patient, which utilizes the heating wire (21, 28) within the tube.

대표청구항 ▼

1. A conduit for supplying gases, the conduit comprising: a proximal end configured to connect to a source of breathing gases;a distal end configured to connect to a patient interface;a wall defining a lumen for delivering a flow of gases to a patient;a wire provided within or around the conduit and

1. A conduit for supplying gases, the conduit comprising: a proximal end configured to connect to a source of breathing gases;a distal end configured to connect to a patient interface;a wall defining a lumen for delivering a flow of gases to a patient;a wire provided within or around the conduit and extending at least a portion of a length of the conduit, the length of the conduit extending from a proximal portion of the conduit to a distal portion of the conduit; anda gases property sensor configured to measure at least one property of the flow of gases and positioned at the distal portion of the conduit, the gases property sensor connected to the wire, and the gases property sensor disposed within a housing and within the flow of gases such that the gases property sensor is able to measure the at least one property of the flow of gases. 2. The conduit of claim 1, wherein the gases property sensor comprises at least one of a thermistor or a capacitive sensor. 3. The conduit of claim 1, wherein the gases property sensor is configured to measure at least one of temperature, pressure, gas composition, or humidity of the flow of gases. 4. The conduit of claim 1, wherein the at least a portion of the length of the conduit is substantially the length of the conduit. 5. An apparatus configured to supply a stream of gases to a patient, the apparatus comprising: a gases supply;a conduit configured to connect to the gases supply and to deliver the stream of the gases to the patient;a wire located throughout a length of the conduit;an electrical circuit connected to the wire, the electrical circuit configured to provide a signal to a controller through the wire indicative of at least one property of the stream of gases, the controller configured to determine the at least one property of the stream of gases, wherein at least a portion of the electrical circuit is configured to be positioned within the stream of gases; andan overmolding enclosing at least part of the electrical circuit, the overmolding extending into a region conveying the stream of gases through the conduit. 6. The apparatus of claim 5, wherein the overmolding comprises a housing protruding from a wall of the conduit into the stream of gases. 7. The apparatus of claim 6, wherein the housing protrudes beyond the wall of the conduit. 8. The apparatus of claim 5, wherein the electrical circuit is at least partially molded into a wall of the conduit. 9. The apparatus of claim 5, wherein the electrical circuit comprises at least one of a thermistor, a resistor, or a capacitive sensor. 10. The apparatus of claim 9, wherein the at least one of the thermistor, the resistor, or the capacitive sensor is positioned in the conduit at or near a middle of a lumen formed by a wall of the conduit, and wherein the stream of gases is delivered through the lumen. 11. The apparatus of claim 5, wherein the electrical circuit is positioned on a circuit board, and wherein the overmolding encloses at least part of the circuit board. 12. The apparatus of claim 5, wherein the electrical circuit is mounted on a circuit board that at least partially extends into the stream of gases supplied to the patient through the conduit. 13. The apparatus of claim 5, wherein the electrical circuit is configured to measure at least one of temperature, pressure, gas composition, or humidity of the stream of gases. 14. The apparatus of claim 5, wherein the conduit is configured to connect to the gases supply at a first end of the conduit and to connect to a patient interface at a second end of the conduit, the patient interface configured to deliver the gases stream to the patient, and wherein the length of the conduit is substantially from the first end to the second end. 15. The apparatus of claim 14, wherein the overmolding is disposed at or near the second end of the conduit. 16. The conduit of claim 1, wherein the gases property sensor is on a circuit board. 17. The conduit of claim 16, wherein at least a portion of the circuit board is disposed within a plastic molding at least partially forming the housing. 18. The conduit of claim 17, wherein the circuit board is at least partially molded within the wall of the conduit. 19. The conduit of claim 1, wherein the housing protrudes beyond the wall of the conduit into the lumen. 20. The conduit of claim 1, wherein the gas property sensor is positioned at or near a radial center of the lumen. 21. The conduit of claim 1, further comprising a diode connected to the wire and in parallel electrical communication with the gases property sensor, wherein when an electrical current is applied to the wire in a first polarity, the electrical current flows through the diode such that the wire provides heat to the conduit, and wherein when the electrical current is applied to the wire in a second polarity opposite from the first polarity, the electrical current does not flow through the diode and flows through the gases property sensor. 22. The conduit of claim 21, wherein the diode is positioned at the distal portion of the conduit. 23. The conduit of claim 1, further comprising: a first filter connected to the wire and in series electrical communication with the gases property sensor, the first filter configured to pass through an electrical signal of a first frequency range driven through the wire;an other gases property sensor configured to measure at least one other property of the flow of gases and positioned at the distal portion of the conduit, the other gases property sensor connected to the wire in parallel electrical communication with the gases property sensor, and the other gases property sensor disposed within the housing and within the flow of gases such that the other gases property sensor is able to measure the at least one other property of the flow of gases; anda second filter connected to the wire and in series electrical communication with the other gases property sensor, the second filter configured to pass through an electrical signal of a second frequency range driven through the wire,wherein the electrical signal of first frequency range is associated with measuring the at least one property of the flow of gases, andwherein the electrical signal of the second frequency range is associated with measuring the at least one other property of the flow of gasses. 24. The conduit of claim 1, further comprising: a third filter connected to the wire and in parallel electrical communication with the first and second filters, the third filter configured to pass through an electrical signal of a third frequency range driven through the wire,wherein the electrical signal of the third frequency range is associated with providing heat to the conduit via the wire. 25. The conduit of claim 2, wherein the gases property sensor comprises a resistor and the capacitive sensor. 26. The conduit of claim 17, wherein the plastic molding protrudes from the wall of the conduit into the flow of gases. 27. The apparatus of claim 5, wherein the gases supply includes the controller configured to determine the at least one property of the stream of gases. 28. The apparatus of claim 5, wherein the electrical circuit further comprises a sensor and a diode, the sensor configured to provide the signal to the controller through the wire indicative of the at least one property of the stream of gases, the diode in parallel electrical communication with the sensor, wherein when an electrical current is applied to the wire in a first polarity, the electrical current flows through the diode such that the wire provides heat to the conduit, and wherein when the electrical current is applied to the wire in a second polarity opposite from the first polarity, the electrical current does not flow through diode and flows through the sensor. 29. The apparatus of claim 28, wherein the diode is positioned at a distal portion of the conduit, the distal portion configured to connect to a patient interface. 30. The apparatus of claim 28, wherein the controller comprises a reference resistor in electrical communication with the sensor via the wire, wherein when the electrical current is applied to the wire in the second polarity and the electrical current flows through the sensor, the controller is configured to determine the at least one property of the flow of gases via the reference resistor. 31. The apparatus of claim 5, wherein the electrical circuit further comprises: a first sensor configured to provide a first signal to the controller through the wire indicative of a first property of the at least one property of the stream of gases;a first filter in series electrical communication with the first sensor, the first filter configured to pass through to the first sensor a first electrical frequency range driven through the wire, the first electrical frequency range associated with the first signal;a second sensor configured to provide a second signal to the controller through the wire indicative of a second property of the at least one property of the stream of gases, the second sensor in parallel electrical communication with the first sensor;a second filter in series electrical communication with the second sensor, the second filter configured to pass through to the second sensor a second electrical frequency range driven through the wire, the second electrical frequency range associated with the second signal; anda third filter in parallel electrical communication with the first and second filters, the third filter configured to pass through a third frequency range driven through the wire, the third frequency is associated with providing heat to the conduit via the wire. 32. The apparatus of claim 31, wherein the controller comprises: a first reference resistor in electrical communication with the wire, the first reference resistor associated with the controller determining the first property of the at least one property of the stream of gases;a fourth filter connected to the wire and configured to pass through to the first reference resistor the first electrical frequency range associated with the first signal;a second reference resistor in electrical communication with the wire, the second reference resistor associated with the controller determining the second property of the at least one property of the stream of gases; anda fifth filter connected to the wire and configured to pass through to the second reference resistor the second electrical frequency range associated with the second signal. 33. The apparatus of claim 9, wherein the at least one of the thermistor, the resistor, or the capacitive sensor is positioned in the conduit at or near a radial center of a lumen formed by a wall of the conduit, and wherein the stream of gases is delivered through the lumen.