The disclosure relates to medical tubes and methods of manufacturing medical tubes. The tube may be a composite structure made of two or more distinct components that are spirally wound to form an elongate tube. For example, one of the components may be a spirally wound elongate hollow body, and the
The disclosure relates to medical tubes and methods of manufacturing medical tubes. The tube may be a composite structure made of two or more distinct components that are spirally wound to form an elongate tube. For example, one of the components may be a spirally wound elongate hollow body, and the other component may be an elongate structural component also spirally wound between turns of the spirally wound hollow body The tube need not be made from distinct components, however. For instance, an elongate hollow body formed (e.g., extruded) from a single material may be spirally wound to form an elongate tube. The elongate hollow body itself may in transverse cross-section have a thin wall portion and a relatively thicker or more rigid reinforcement portion. The tubes can be incorporated into a variety of medical circuits or may be employed for other medical uses.
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1. A composite tube comprising: a first elongate member comprising a cross-sectional shape that defines a hollow body, wherein the first elongate member is spirally wound to form at least in part an elongate tube having a longitudinal axis, a lumen extending along the longitudinal axis, and a hollow
1. A composite tube comprising: a first elongate member comprising a cross-sectional shape that defines a hollow body, wherein the first elongate member is spirally wound to form at least in part an elongate tube having a longitudinal axis, a lumen extending along the longitudinal axis, and a hollow wall defining a hollow space and at least partially surrounding the lumen; anda second elongate member spirally wound and joined between adjacent turns of the first elongate member, wherein surface portions of each of the first elongate member and the second elongate member form at least a portion of the lumen of the elongate tube, wherein the second elongate member acts as a structural support or reinforcement for the first elongate member. 2. The composite tube of claim 1 wherein the second elongate member is less flexible than the first elongate member. 3. The composite tube of claim 1 wherein the second elongate member provides crush resistance while being flexible enough to permit short-radius bends without kinking, occluding or collapsing. 4. The composite tube of claim 1 wherein portions of the first elongate member overlap adjacent turns of the second elongate member. 5. The composite tube of claim 1 wherein the second elongate member is solid or substantially solid. 6. The composite tube of claim 1 wherein the first elongate member forms in longitudinal cross-section a plurality of bubbles with a flattened surface at the lumen. 7. The composite tube of claim 6 wherein adjacent bubbles are separated by a gap above the second elongate member. 8. The composite tube of claim 7 wherein the gap permits shorter-radius bends. 9. The composite tube of claim 6 wherein the bubbles have perforations. 10. The composite tube of claim 1 wherein the second elongate member has a longitudinal cross-section that is wider proximal the lumen and narrower at a radial distance from the lumen. 11. The composite tube of claim 1 comprising one or more conductive filaments embedded or encapsulated in the second elongate member. 12. The composite tube of claim 11 wherein the second elongate member has a longitudinal cross-section that is generally triangular, generally T-shaped, or generally Y-shaped, and the one or more conductive filaments are embedded or encapsulated in the second elongate member on opposite sides of the triangle, T-shape, or Y-shape. 13. The composite tube of claim 1 wherein a part of the hollow wall at the lumen is thinner than a part of the hollow body opposed from the lumen. 14. The composite tube of claim 1 being one or more of: a medical circuit component, an inspiratory tube, an expiratory tube, a PAP component, an insufflation component, an exploratory component, and a surgical component. 15. A method of manufacturing a composite tube comprising: providing a first elongate member comprising a cross-sectional shape that forms a hollow body defining a hollow space and a second elongate member configured to provide structural support for the first elongate member;spirally wrapping the second elongate member around a mandrel with opposite side edge portions of the second elongate member being spaced apart on adjacent wraps, thereby forming a second-elongate-member spiral; andspirally wrapping the first elongate member that defines the hollow space around the second-elongate-member spiral, such that portions of the first elongate member overlap adjacent wraps of the second-elongate-member spiral and a portion of the first elongate member is disposed adjacent the mandrel in the space between the wraps of the second-elongate-member spiral, thereby forming a first-elongate-member spiral such that surface portions of each of the first elongate member and the second elongate member are located adjacent the mandrel. 16. The method of claim 15 comprising supplying air at a pressure greater than atmospheric pressure to an end of the first elongate member. 17. The method of claim 15 comprising cooling the second-elongate-member spiral and the first-elongate-member spiral to form a composite tube having a lumen extending along a longitudinal axis and a hollow space surrounding the lumen. 18. The method of claim 15 comprising forming the first and/or second elongate member. 19. The method of claim 18 wherein forming the first and/or second elongate members comprises extruding the first and/or second elongate members with a respective extruder. 20. The method of claim 18 wherein forming the second elongate member comprises embedding or encapsulating conductive filaments in the second elongate member. 21. A medical tube comprising: an elongate hollow body spirally wound to form an elongate tube having a longitudinal axis, a lumen extending along the longitudinal axis, and a hollow wall defining a hollow space and at least partially surrounding the lumen, wherein the elongate hollow body has in transverse cross-section a wall defining at least a portion of the hollow wall, and wherein adjacent turns of the elongate hollow body do not overlap; anda reinforcement portion, reinforcing the elongate hollow body, extending along a length of the elongate hollow body being spirally positioned between the adjacent turns of the elongate hollow body, wherein surface portions of each of the elongate hollow body and the reinforcement portion form a portion of the lumen of the elongate tube;wherein the reinforcement portion is relatively thicker or more rigid than the wall defining at least a portion of the elongate hollow wall. 22. The medical tube of claim 21 wherein the reinforcement portion is formed from the same piece of material as the elongate hollow body. 23. The medical tube of claim 22 wherein the elongate hollow body in transverse cross-section comprises two reinforcement portions on opposite sides of the elongate hollow body. 24. The medical tube of claim 23 wherein opposite side edges of the reinforcement portions touch and/or overlap on adjacent turns of the elongate hollow body. 25. The medical tube of claim 21 wherein the reinforcement portion is formed from a separate piece of material than the elongate hollow body. 26. The medical tube of claim 21 wherein the hollow body forms in longitudinal cross-section a plurality of bubbles with a flattened surface at the lumen. 27. The medical tube of claim 26 wherein the bubbles have perforations. 28. The medical tube of claim 21 comprising one or more conductive filaments embedded or encapsulated within the reinforcement portion. 29. The medical tube of claim 21 being one or more of: a medical circuit component, an inspiratory tube, an expiratory tube, a PAP component, an insufflation component, an exploratory component, and a surgical component. 30. A method of manufacturing a medical tube comprising: spirally winding an elongate hollow body around a mandrel without overlapping adjacent turns of the elongate hollow body to form an elongate tube having a longitudinal axis, a lumen extending along the longitudinal axis, and a hollow wall defining a hollow space and at least partially surrounding the lumen, wherein the elongate hollow body has in transverse cross-section a wall defining at least a portion of the hollow wall and two reinforcement portions on opposite sides of the elongate hollow body forming a portion of the lumen, the two reinforcement portions being relatively thicker or more rigid than the wall defining at least a portion of the hollow wall; andjoining adjacent reinforcement portions to each other such that opposite edges of the reinforcement portions touch on adjacent turns of the elongate hollow body and surface portions of each of the hollow wall and the reinforcement portions form at least a portion of the lumen. 31. The method of claim 30 wherein joining adjacent reinforcement portions to each other causes edges of the reinforcement portions to overlap. 32. The method of claim 30 comprising supplying air at a pressure greater than atmospheric pressure to an end of the elongate hollow body. 33. The method of claim 30 comprising cooling the elongate hollow body to join adjacent reinforcement portions to each other. 34. The method of claim 30 comprising extruding the elongate hollow body. 35. The method of claim 30 comprising embedding or encapsulating one or more conductive filaments in the reinforcement portions.
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