Pressure vessel (1) with a gas-impermeable liner (2) and a reinforcing layer (4) in composite material formed externally around the impermeable liner (2), as well as at least one boss (5) coupled to the impermeable liner (2) and to the reinforcing layer (4), wherein between the impermeable liner (2)
Pressure vessel (1) with a gas-impermeable liner (2) and a reinforcing layer (4) in composite material formed externally around the impermeable liner (2), as well as at least one boss (5) coupled to the impermeable liner (2) and to the reinforcing layer (4), wherein between the impermeable liner (2) and the boss (5) a polymeric sealing mass (7) is arranged bound to both the impermeable liner (2) and to the boss (5) by means of in situ cross-linking of the sealing mass (7).
대표청구항▼
1. A pressure vessel with a gas-impermeable liner and a reinforcing layer in composite material formed externally around the impermeable liner, as well as at least one boss coupled to the impermeable liner and to the reinforcing layer to obtain an opening of the pressure vessel, wherein a polymeric
1. A pressure vessel with a gas-impermeable liner and a reinforcing layer in composite material formed externally around the impermeable liner, as well as at least one boss coupled to the impermeable liner and to the reinforcing layer to obtain an opening of the pressure vessel, wherein a polymeric sealing mass is arranged between the impermeable liner and the boss, said polymeric sealing mass being bonded to both the impermeable liner and the boss by in situ cross-linking of the sealing mass. 2. The pressure vessel according to claim 1, wherein the impermeable liner is non-metallic, the boss is metallic and the sealing mass is an elastomeric rubber. 3. The pressure vessel according to claim 1, wherein the impermeable liner and the sealing mass are spaced apart from a valve sealing interface between at least one O-ring gasket of a valve screwed in the boss and the boss itself, said O-ring gasket being in direct contact with a metal sealing surface of the boss. 4. The pressure vessel according to claim 1, comprising a first auxiliary adhesive in an interface between the impermeable liner and the sealing mass. 5. The pressure vessel according to claim 1, comprising a second auxiliary adhesive in an interface between the sealing mass and the boss. 6. The pressure vessel according to claim 1, wherein: the boss comprises a tubular central portion with a threaded seat for screwing a valve, and a coupling flange projecting from the tubular portion and forming two annular discs which define therebetween an annular slot which is open radially outwardly with respect to a longitudinal axis of the boss,the annular slot receives a corresponding free edge of the impermeable liner by the interposition of the sealing mass,the sealing mass forms a ring received in the annular slot and having in cross-section a U shape enclosing the free edge of the impermeable liner,both the free edge of the impermeable liner and the sealing mass are arranged inside the annular slot. 7. The pressure vessel according to claim 6, wherein an inner annular disc of the coupling flange is formed as a single piece with the tubular portion, and an outer annular disc can be screwed on an outer thread of the tubular portion with a possibility of adjusting the axial distance between the two annular discs. 8. The pressure vessel according to claim 7, wherein the inner annular disc and the free edge of the opening of the impermeable liner have an elliptic or generally elongated and complementary shape, so as to allow the insertion of the boss into the opening of the impermeable liner and blocking of the boss by rotation with respect to the impermeable liner. 9. The pressure vessel according to claim 7, wherein the outer annular disc of the coupling flange forms at least one positioning protrusion, which is preferably circular and concentric with the longitudinal axis of the tubular portion, which inserts in a corresponding positioning recess, preferably a circular groove, formed in an outer surface of the impermeable liner. 10. The pressure vessel according to claim 1, wherein the impermeable liner has one or more through holes in the contact area with the sealing mass, and sections of the sealing mass extending into the through holes make an additional structural coupling between the sealing mass and the impermeable liner. 11. The pressure vessel according to claim 1, wherein the boss forms one or more injection holes extending from the outside of the boss up to the space occupied by the sealing mass. 12. The pressure vessel according to claim 1, wherein: A) the sealing mass is selected from the group consisting of rubber, silicone rubber, latex, elastomer, injectable or spreadable in the form of monocomponent precursor or mixture of multicomponent precursors and cross-linkable by a thermal treatment, andB) the impermeable liner is made of a synthetic material chosen from the group consisting in polyamide, polyethylene, high-density polyethylene, polypropylene, acrylonitrile butadiene styrene, and the reinforcing layer comprises a wrapping of filament of continuous carbon or glass fibers, impregnated with an epoxy resin, andthe boss is made of steel. 13. The pressure vessel according to claim 1, wherein the sealing mass or the auxiliary adhesive are selected from the group consisting in: latex containing at least one resorcinol-formaldehyde resin and chlorosulfonated polyethylene,latex comprising a resorcinol-formaldehyde resin with or without vinylpiridine and/or hydrogenated acrylonitrile butadiene rubber (HNBR),latex comprising at least one resorcinol-formaldehyde-vinylpiridine resin and a acrylonitrile-butadiene rubber (NBR),latex comprising at least one resorcinol-formaldehyde resin and a chlorosulfonated polyethylene resin. 14. A method for manufacturing a pressure vessel according to claim 1, comprising: manufacturing the impermeable liner and manufacturing the boss,assembling the boss with the impermeable liner, arranging a hollow space in a coupling region between the boss and the impermeable liner,spreading or injecting a precursor of the sealing mass in the hollow space provided, andsubsequently, subjecting the precursor of the sealing mass to a cross-linking process to bind the sealing mass to both the boss and the impermeable liner. 15. The method according to claim 14, wherein the cross-linking process comprises heating metal parts of the boss. 16. The method according to claim 14, comprising treating the impermeable liner before applying the sealing mass by a plasma surface activation process.
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이 특허에 인용된 특허 (2)
Newhouse Norman L. (Lincoln NE) Veys Ronald B. (Lincoln NE) Tiller Dale B. (Lincoln NE), Boss for a filament wound pressure vessel.
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