Pressure vessel and process for producing the same
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F17C-001/06
F17C-001/00
출원번호
US-0848125
(2004-05-19)
발명자
/ 주소
Iida,Yasushi
Kitano,Akihiko
Yamagiwa,Masayoshi
Kobayashi,Masanobu
Noguchi,Kenichi
출원인 / 주소
Toray Industries, Inc.
대리인 / 주소
Foley &
인용정보
피인용 횟수 :
14인용 특허 :
15
초록▼
The pressure vessel of the present invention comprises an inner shell capable of serving as a gas barrier and a pressure resistant outer shell provided to cover the inner shell, said outer shell being made of an FRP comprising reinforcing fibers and a resin and is 35 GPa or more in tensile modulus a
The pressure vessel of the present invention comprises an inner shell capable of serving as a gas barrier and a pressure resistant outer shell provided to cover the inner shell, said outer shell being made of an FRP comprising reinforcing fibers and a resin and is 35 GPa or more in tensile modulus and 1.5% or more in tensile breaking strain. The present invention can provide a pressure vessel not only light in weight,. but also excellent in retaining its internal pressure against repetitive impacts and also excellent in reliability. The process for producing a pressure vessel of the present invention comprises the step of forming a pressure resistant outer shell made of an FRP comprising reinforcing fibers and a resin and is 35 GPa or more in tensile modulus and 1.5% or more in tensile breaking strain, around an inner shell capable of serving as a gas barrier, by a filament winding method or a tape winding method. The present invention can produce a pressure vessel excellent in retaining its internal pressure, excellent in reliability, and light in weight at a low cost.
대표청구항▼
The invention claimed is: 1. A pressure vessel, comprising: an inner shell capable of serving as a gas barrier and a pressure resistant outer shell provided to cover the inner shell, which said outer shell is made of a carbon fiber reinforced plastic (CFRP) comprising reinforcing fibers and a resin
The invention claimed is: 1. A pressure vessel, comprising: an inner shell capable of serving as a gas barrier and a pressure resistant outer shell provided to cover the inner shell, which said outer shell is made of a carbon fiber reinforced plastic (CFRP) comprising reinforcing fibers and a resin and of 35 GPa or more in tensile modulus and 1.5% or more in tensile breaking strain, wherein the outer shell comprises a layer of reinforcing fibers arranged, with reference to the axial direction of the pressure vessel, at an angle within a range from 짹0째 to 짹15째, a layer of reinforcing fibers arranged at an angle within a range from 짹75째 to 짹105째 and a layer of reinforcing fibers arranged at an angle within a range from 짹30째 to 짹60째, and in those layers, the volume ratio of reinforcing fibers is in the range of 1:1.5-2.5:0.2-1.2, respectively. 2. A pressure vessel of claim 1, wherein the inner shell is made of a metal, resin or FRP. 3. A pressure vessel of claim 1, wherein the inner shell has a gas barrier layer formed on the inside surface and/or outside surface. 4. A pressure vessel of claim 1, wherein the inner shell has a body portion, on which a reinforcing layer made of a FRP is formed. 5. A pressure vessel of claim 1, wherein the outer shell is 35 GPa or more in tensile modulus and 1.7% or more in tensile breaking strain. 6. A pressure vessel of claim 1, wherein the outer shell is 35 GPa or more in tensile modulus and 2.0% or more in tensile breaking strain. 7. A pressure vessel of claim 1, wherein the reinforcing fibers comprise carbon fiber yarns of 4.5 GPa or more in strand tensile strength and 2.0% or more in strand tensile breaking strain. 8. A pressure vessel of claim 1, wherein the reinforcing fibers comprise carbon fiber yarns of 5.5 GPa or more in strand tensile strength and 2.0% or more in strand tensile breaking strain. 9. A pressure vessel of claim 1, wherein the pressure vessel has a body portion, and the outer shell has a layer structure of 5 or more layers around the body portion, the relation between the total thickness T (mm) of all the layers and the number N of the layers, satisfying 0.5≦T/N≦6. 10. A pressure vessel of claim 9, wherein in said body portion, layers with reinforcing fibers hoop-wound and layers with reinforcing fibers helically wound are alternately arranged in the thickness direction of the outer shell. 11. A pressure vessel of claim 1, wherein the outer shell comprises the following components [X], [Y] and [Z], and the component [Z] is localized around the component [X] appearing in a cross sectional face of the outer shell: [X]: a reinforced fiber bundle [Y]: a thermosetting resin [Z]: an elastomer and/or thermoplastic resin. 12. A pressure vessel of claim 11, wherein the ratio L 2/L1 satisfies 1/100≦L2/L1 ≦쩍, where L1 is the length of a straight line connecting the geometrical centers of two adjacent component [X], L2 is the length of a portion of the straight line crossing the component [Z] present between the said two adjacent component [X]. 13. A pressure vessel of claim 11, wherein the component [Z] comprises at least one selected from the group consisting of polyvinyl acetate, polyamides, polycarbonates, polyacetals, polyphenylene oxide, polyphenylene sulfide, polyallylates, polyesters, polyamidimides, polyimides, polyether imides, polysulfones, polyether sulfones, polyetherether ketone, polyaramid, polybenzimidazole, polyethylene, polypropoylene, cellulose acetate, cellulose butyrate, polyester based thermoplastic elastomers and polyamide based thermoplastic elastomers. 14. A pressure vessel of claim 1, wherein the outer shell comprises a shoulder portion, and the innermost layer of the shoulder portion comprises a layer with reinforcing fibers hoop-wound. 15. A pressure vessel of claim 14, wherein the innermost layer is formed by the filament winding method. 16. A pressure vessel of claim 14, wherein the circumferential surfaces of the shoulder portion of the inner shell are formed to have steps in the axial direction, respectively extending in the circumferential direction. 17. A pressure vessel of claim 1, wherein the inner shell comprises a neck portion, inside which a boss for nozzle installation is provided, and a seal ring is fitted on the end face of the neck portion around the boss for nozzle installation, and a pressing means is provided for pressing the seal ring toward the end face of the neck portion. 18. A pressure vessel of claim 17, wherein the pressing means comprises a seal ring pressing member and a clamp of the pressing member. 19. A pressure vessel of claim 17, wherein the pressing means comprises a pressing member threadedly engaged with the boss for nozzle installation. 20. A pressure vessel of claim 17, wherein the pressing means comprises a pressing member comprising a cylindrical portion threadedly engaged with the neck portion, and a collar portion held in contact with the seal ring. 21. A pressure vessel of claim 17, wherein the boss for nozzle installation comprises a flange portion, and the outer diameter of the pressing means is smaller than the outer diameter of the flange portion by 1 to 10 mm. 22. A pressure vessel of claim 17, wherein the end face of the neck portion comprises an annular groove provided to have the seal ring fitted therein. 23. A pressure vessel of claim 19, wherein the outer shell extends up to a position to cover the pressing member. 24. A pressure vessel of claim 20, wherein the cylindrical portion comprises a step. 25. A pressure vessel of claim 1, wherein the inner shell comprises a neck portion; a boss for nozzle installation is provided inside the neck portion; and the surface of the boss for nozzle installation to be coupled with the neck portion has a rugged form. 26. A pressure vessel of claim 1, wherein the inner shell comprises a neck portion; inside which a boss for nozzle installation is provided, and the surface of the boss for nozzle installation to be coupled with the neck portion has a circumferentially extending ridge. 27. A pressure vessel of claim 26, wherein additionally the surface to be coupled has a rugged form. 28. A pressure vessel of claim 25, wherein a seal ring is fitted on the end face of the neck portion around the boss for nozzle installation, and a means for pressing the seal ring toward the end face of the neck portion is provided. 29. A pressure vessel of claim 1, wherein the inner shell comprises a neck portion inside which a boss for nozzle installation is provided, and outside the neck portion a cylindrical member having a collar portion, a cylindrical portion in succession to the collar portion and a flange portion extending from the circumferential surface of the cylindrical portion into the outer shell are provided. 30. A pressure vessel of claim 29, wherein the flange portion extends annularly. 31. A pressure vessel of claim 29, wherein a seal ring is fitted on the end face of the neck portion around the boss for nozzle installation, and the collar portion presses the seal ring toward the end face of the neck portion. 32. A pressure vessel of claim 29, wherein a clamp of the cylindrical member, threadedly engaged with the boss for nozzle installation, is provided outside the collar portion of the cylindrical member. 33. A pressure vessel of claim 29, wherein the collar portion is threadedly engaged with the boss for nozzle installation. 34. A pressure vessel of claim 1, wherein the inner shell has a neck portion inside which a boss for nozzle installation having a flange portion and a body portion is provided and the outer diameter of the flange portion is larger than the outer diameter of the body portion by 20 mm to 25 mm, and the cylindrical portion has a tapered surface kept in contact with the neck portion. 35. A pressure vessel, comprising: an inner shell capable of serving as a gas barrier and a pressure resistant outer shell provided to cover the inner shell, which said outer shell is made of a carbon fiber reinforced plastic (CFRP) comprising reinforcing fibers and a resin and of 35 GPa or more in tensile modulus and 1.5% or more in tensile breaking strain, wherein the outer shell comprises a layer of reinforcing fibers arranged, with reference to the axial direction of the pressure vessel, at an angle within a range from 짹5째 to 짹50째 and a layer of reinforcing fibers arranged at an angle within a range from 짹75째 to 짹105째 and the volume ratio of reinforcing fibers in those layers is in the range of 1.0:1.0-2. 0, respectively. 36. A pressure vessel of claim 35, wherein the inner shell is made of a metal, resin or FRP. 37. A pressure vessel of claim 35, wherein the inner shell has a gas barrier layer formed on the inside surface and/or outside surface. 38. A pressure vessel of claim 35, wherein the inner shell has a body portion, on which a reinforcing layer made of a FRP is formed. 39. A pressure vessel of claim 35, wherein the outer shell is 35 GPa or more in tensile modulus and 1.7% or more in tensile breaking strain. 40. A pressure vessel of claim 35, wherein the outer shell is 35 GPa or more in tensile modulus and 2.0% or more in tensile breaking strain. 41. A pressure vessel of claim 35, wherein the reinforcing fibers comprise carbon fiber yarns of 4.5 GPa or more in strand tensile strength and 2.0% or more in strand tensile breaking strain. 42. A pressure vessel of claim 35, wherein the reinforcing fibers comprise carbon fiber yarns of 5.5 GPa or more in strand tensile strength and 2.0% or more in strand tensile breaking strain. 43. A pressure vessel of claim 35, wherein the pressure vessel has a body portion, and the outer shell has a layer structure of 5 or more layers around the body portion, the relation between the total thickness T (mm) of all the layers and the number N of the layers, satisfying 0.5≦T/N≦6. 44. A pressure vessel of claim 42, wherein in said body portion, layers with reinforcing fibers hoop-wound and layers with reinforcing fibers helically wound are alternately arranged in the thickness direction of the outer shell. 45. A pressure vessel of claim 35, wherein the outer shell comprises the following components [X], [Y] and [Z], and the component [Z] is localized around the component [X] appearing in a cross sectional face of the outer shell: [X]: a reinforced fiber bundle [Y]: a thermosetting resin [Z]: an elastomer and/or thermoplastic resin. 46. A pressure vessel of claim 45, wherein the ratio L 2/L1 satisfies 1/100≦L2/L1 ≦쩍, where L1 is the length of a straight line connecting the geometrical centers of two adjacent component [X], L2 is the length of a portion of the straight line crossing the component [Z] present between the said two adjacent component [X]. 47. A pressure vessel of claim 45, wherein the component [Z] comprises at least one selected from the group consisting of polyvinyl acetate, polyamides, polycarbonates, polyacetals, polyphenylene oxide, polyphenylene sulfide, polyallylates, polyesters, polyamidimides, polyimides, polyether imides, polysulfones, polyether sulfones, polyether ether ketone, polyaramid, polybenzimidazole, polyethylene, polypropoylene, cellulose acetate, cellulose butyrate, polyester based thermoplastic elastomers and polyamide based thermoplastic elastomers. 48. A pressure vessel of claim 35, wherein the outer shell comprises a shoulder portion, and the innermost layer of the shoulder portion comprises a layer with reinforcing fibers hoop-wound. 49. A pressure vessel of claim 48, wherein the innermost layer is formed by the filament winding method. 50. A pressure vessel of claim 48, wherein the circumferential surfaces of the shoulder portion of the inner shell are formed to have steps in the axial direction, respectively extending in the circumferential direction. 51. A pressure vessel of claim 35, wherein the inner shell comprises a neck portion, inside which a boss for nozzle installation is provided, and a seal ring is fitted on the end face of the neck portion around the boss for nozzle installation, and a pressing means is provided for pressing the seal ring toward the end face of the neck portion. 52. A pressure vessel of claim 51, wherein the pressing means comprises a seal ring pressing member and a clamp of the pressing member. 53. A pressure vessel of claim 51, wherein the pressing means comprises a pressing member threadedly engaged with the boss for nozzle installation. 54. A pressure vessel of claim 51, wherein the pressing means comprises a pressing member comprising a cylindrical portion threadedly engaged with the neck portion, and a collar portion held in contact with the seal ring. 55. A pressure vessel of claim 51, wherein the boss for nozzle installation comprises a flange portion, and the outer diameter of the pressing means is smaller than the outer diameter of the flange portion by 1 to 10 mm. 56. A pressure vessel of claim 51, wherein the end face of the neck portion comprises an annular groove provided to have the seal ring fitted therein. 57. A pressure vessel of claim 53, wherein the outer shell extends up to a position to cover the pressing member. 58. A pressure vessel of claim 54, wherein the cylindrical portion comprises a step. 59. A pressure vessel of claim 35, wherein the inner shell comprises a neck portion; a boss for nozzle installation is provided inside the neck portion; and the surface of the boss for nozzle installation to be coupled with the neck portion has a rugged form. 60. A pressure vessel of claim 35, wherein the inner shell comprises a neck portion; inside which a boss for nozzle installation is provided, and the surface of the boss for nozzle installation to be coupled with the neck portion has a circumferentially extending ridge. 61. A pressure vessel of claim 60, wherein additionally the surface to be coupled has a rugged form. 62. A pressure vessel of claim 59, wherein a seal ring is fitted on the end face of the neck portion around the boss for nozzle installation, and a means for pressing the seal ring toward the end face of the neck portion is provided. 63. A pressure vessel of claim 35, wherein the inner shell comprises a neck portion inside which a boss for nozzle installation is provided, and outside the neck portion a cylindrical member having a collar portion, a cylindrical portion in succession to the collar portion and a flange portion extending from the circumferential surface of the cylindrical portion into the outer shell are provided. 64. A pressure vessel of claim 63, wherein the flange portion extends annularly. 65. A pressure vessel of claim 63, wherein a seal ring is fitted on the end face of the neck portion around the boss for nozzle installation, and the collar portion presses the seal ring toward the end face of the neck portion. 66. A pressure vessel of claim 63, wherein a clamp of the cylindrical member, threadedly engaged with the boss for nozzle installation is provided outside the collar portion of the cylindrical member. 67. A pressure vessel of claim 63, wherein the collar portion is threadedly engaged with the boss for nozzle installation. 68. A pressure vessel of claim 35, wherein the inner shell has a neck portion inside which a boss for nozzle installation having a flange portion and a body portion is provided and the outer diameter of the flange portion is larger than the outer diameter of the body portion by 20 mm to 25 mm, and the cylindrical portion has a tapered surface kept in contact with the neck portion.
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이 특허에 인용된 특허 (15)
Gwynette Greswold (Shelby NC) Cordaro Robert S. (Shelby NC), Fiber glass filament wound wheel.
Lambot HonorJ. (Wauthier-Braine BEX) Fliervoet Johannes H. M. (Zwolle NLX) Kramer Pieter (Hardenberg NLX), Process for manufacturing the inner tube element for a double tube coring apparatus.
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