IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0799263
(2010-04-21)
|
등록번호 |
US-8453681
(2013-06-04)
|
발명자
/ 주소 |
- Forrester, Martin E.
- Jourdan, Ralf
|
출원인 / 주소 |
- Schouenburg Hose Technology GmbH
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
39 |
초록
▼
A flexible, stretchable, crush resistant hose particularly well suited for supplying breathing gases to patients in medical applications and the like has a helix defined by coils of thermoplastic material, and a web of thermoplastic material bonded or welded to adjacent ones of the coils, preferably
A flexible, stretchable, crush resistant hose particularly well suited for supplying breathing gases to patients in medical applications and the like has a helix defined by coils of thermoplastic material, and a web of thermoplastic material bonded or welded to adjacent ones of the coils, preferably along inner diameter portions of the surfaces of the coils. The web extends radially outwardly from between the adjacent coils to define a helical reverse-direction crease at a maximum outer diameter of the hose when the hose is in a normal minimal-length condition wherein the coils are situated side-by-side sandwiching portions of the web therebetween. The thermoplastic material of hose is stress relieved by an annealing process after the hose is formed, to enhance the flexibility of the hose and the ease with which the hose can be extended.
대표청구항
▼
1. A flexible, stretchable, crush resistant axially extending hose comprised of coils formed entirely of thermoplastic material that form a continuous helix of substantially constant diameter, and a thin, narrow, elongate web of thermoplastic material that extends between adjacent coils of the helix
1. A flexible, stretchable, crush resistant axially extending hose comprised of coils formed entirely of thermoplastic material that form a continuous helix of substantially constant diameter, and a thin, narrow, elongate web of thermoplastic material that extends between adjacent coils of the helix and has edge regions welded to adjacent ones of the coils to form a single continuous wall, wherein the web has a radially outwardly extending, centrally located fold situated between adjacent ones of the coils, and wherein molecules of the plastic material forming the coils of the helix and the thin elongate web are relaxed such that stress is substantially absent from the hose when the coils of the helix are closer together as a result of an annealing process to enhance the flexibility of the hose during which annealing process the coils of the helix are axially compressed. 2. The hose of claim 1 wherein the annealing process is completed while the hose is axially compressed to a minimal length normal condition wherein the coils of the helix are side-by-side snugly sandwiching radially outwardly extending portions of the web therebetween to give the resulting hose a memory of the normal condition to which the hose will tend to return when released from external force influences. 3. The hose of claim 2 wherein, when the hose is in the normal condition, portions of the web that extend radially outwardly define a reverse-direction crease at a maximum outer diameter of the hose. 4. The hose of claim 3 wherein the reverse-direction crease is set during the annealing process. 5. The hose of claim 2 wherein spring tension that tends to cause the hose to retract to the normal condition builds up in the hose only when the hose is stretched, and said spring tension attributable to the thermoplastic material forming the web in proportion to the spring tension attributable to the thermoplastic material forming the coils of the support spiral is at least about 25% to at least about 50%. 6. The hose of claim 2 wherein the stretch ratio of the length to which the hose can be stretched in comparison to the length of the hose in the normal condition is at least 1.5:1. 7. The hose of claim 1 wherein the coils of the helix have a substantially uniform cross-section with a curved outer surface and a substantially flat inner surface that defines an interior diameter of the hose. 8. The hose of claim 1 wherein the coils of the helix have a substantially uniform cross-section, and the material of the web has a substantially uniform thickness. 9. The hose of claim 1 wherein the thermoplastic material forming the helix and the thermoplastic material forming the web are consist of the same thermoplastic material. 10. The hose of claim 1 wherein the material of the helix is selected from among PVC, TPU, PP, TPE and ABS thermoplastic, and the material of the web is selected from among PVC, TPU, PP, TPE and ABS thermoplastic. 11. The hose of claim 1 wherein different thermoplastic materials are used to form the helix and the web, and the thermoplastic material forming the helix has a higher modulus of elasticity than the thermoplastic material forming the web. 12. The hose of claim 1 wherein the spring constant effective when the hose is stretched has a value of 5 N/m to 25 N/m, with these values being determined by the thickness of the web and the nature of the material selected to form the web. 13. A flexible, stretchable, crush resistant axially extending hose for supplying gases to patients in medical applications, comprising a substantially uniform diameter helix defined by coils formed entirely of thermoplastic material, and a thin web of thermoplastic material of bonded to adjacent coils of the helix along inner diameter portions of the coils to form a single continuous wall and extending radially outwardly from between the adjacent coils to form a helical reverse-direction crease that defines a maximum outer diameter of the hose when the hose is in a normal condition wherein the coils are situated as closely together as possible, snugly sandwiching the material of the web therebetween, and wherein molecules of the material of the helical coil and of the web are relaxed such that stress is substantially absent from the hose when the coils of the helix are closer together as a result of an annealing process after the hose is formed to enhance the flexibility of the hose and to minimize the force needed to stretch the hose during which annealing process the coils of the helix are axially compressed. 14. The hose of claim 13 wherein the annealing process is completed while the hose is axially compressed to a minimal length normal condition wherein the coils of the helix are side-by-side snugly sandwiching radially outwardly extending portions of the web therebetween to give the resulting hose a memory of the normal condition to which the hose will tend to return when released from external force influences. 15. The hose of claim 13 wherein the coils of the helix have a substantially uniform cross-section with a curved outer surface and a substantially flat inner surface that defines an interior diameter of the hose. 16. The hose of claim 13 wherein, when the hose is in the normal condition, portions of the web that extend radially outwardly define a reverse-direction crease at a maximum outer diameter of the hose. 17. The hose of claim 16 wherein the reverse-direction crease is set during the annealing process. 18. The hose of claim 13 wherein the coils of the helix have a substantially uniform cross-section, and the material of the web has a substantially uniform thickness. 19. The hose of claim 13 wherein different thermoplastic materials are used to form the helix and the web, and the thermoplastic material forming the helix and the thermoplastic material forming the web are consist of the same thermoplastic material. 20. The hose of claim 13 wherein the material of the helix is selected from among PVC, TPU, PP, TPE and ABS thermoplastic, and the material of the web is selected from among PVC, TPU, PP, TPE and ABS thermoplastic. 21. The hose of claim 13 wherein spring tension that tends to cause the hose to retract to the normal condition builds up in the hose only when the hose is stretched, and said spring tension attributable to the thermoplastic material forming the web in proportion to the spring tension attributable to the thermoplastic material forming the coils of the support spiral is at least about 25% to at least about 50%. 22. The hose of claim 13 wherein the thermoplastic material forming the helix has a higher modulus of elasticity than the thermoplastic material forming the web. 23. The hose of claim 13 wherein the stretch ratio of the length to which the hose can be stretched in comparison to the length of the hose in the normal condition is at least 1.5:1. 24. The hose of claim 13 wherein the spring constant effective when the hose is stretched has a value of 5 N/m to 25 N/m, with these values being determined by the thickness of the web and the nature of the material selected to form the web.
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