Anti-extrusion sealing system for the outlet of a plastic-lined compressed gas cylinder
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F17C-001/00
F17C-001/16
출원번호
US-0037277
(2011-02-28)
등록번호
US-8967417
(2015-03-03)
발명자
/ 주소
Sharp, Jeffrey J.
Duncan, Mark
출원인 / 주소
Luxfer Canada Limited
대리인 / 주소
Goodwin, Sean W
인용정보
피인용 횟수 :
3인용 특허 :
14
초록▼
A sealing system for an outlet of a plastic-lined cylinder has a plastic liner outlet extending into a bore of a boss. An insert is engageable with the bore, forming a primary seal between the insert and portion of the liner outlet. Further, a tapered compression surface of the insert engages a tape
A sealing system for an outlet of a plastic-lined cylinder has a plastic liner outlet extending into a bore of a boss. An insert is engageable with the bore, forming a primary seal between the insert and portion of the liner outlet. Further, a tapered compression surface of the insert engages a tapered bore portion of the liner outlet adjacent the primary seal for compressing the liner outlet and closing any annular assembly clearance at the primary seal for obviating opportunity for seal extrusion under pressure. An axial position in the boss, and dimensional integrity, of the liner outlet is maintained by engaging an annular distal end of the liner outlet in the bore by a stop. The stop can be integral with the boss. Reverse extrusion of the primary seal due to trapped gas and rapid decompression of the cylinder can be defeated by providing a leak path.
대표청구항▼
1. A compressed gas cylinder comprising: a pressure vessel having an vessel interior for containing high pressure gas therein and a metal boss at a vessel outlet;a plastic liner fit to the vessel interior and a plastic liner outlet extending from the vessel interior and into a bore of the metal boss
1. A compressed gas cylinder comprising: a pressure vessel having an vessel interior for containing high pressure gas therein and a metal boss at a vessel outlet;a plastic liner fit to the vessel interior and a plastic liner outlet extending from the vessel interior and into a bore of the metal boss for forming the vessel outlet, the plastic liner outlet having a cylindrical bore and a tapered bore;a metal insert engageable with the metal boss and interfacing with the plastic liner outlet, the metal insert having a cylindrical plug,an annular seal groove located along the cylindrical plug and having an annular seal element therein, anda tapered compression surface, the cylindrical plug being substantially immediately adjacent a high pressure wall of the annular seal groove and the tapered compression surface being substantially immediately adjacent a downstream wall of the annular seal groove wherein,when engaged, the metal insert forms an anti-extrusion interface with the plastic liner outlet, the cylindrical plug and the annular element entering the cylindrical bore to form an assembly clearance therebetween and the tapered compression surface compresses the tapered bore at an annular tapered interface between the tapered bore and the tapered compression surface to close the annular assembly clearance at the downstream wall of the annular seal groove. 2. The compressed gas cylinder of claim 1, wherein the metal insert is engageable with the metal boss by a thread interface. 3. The compressed gas cylinder of claim 1, wherein the annular tapered interface is a truncated frustum of a right circular cone. 4. The compressed gas cylinder of claim 1, wherein the plastic liner is a monolayer or a multi-layer structure. 5. The compressed gas cylinder of claim 1, wherein liner outlet is coupled to the bore of the boss by a threaded interface. 6. The compressed gas cylinder of claim 1, wherein the liner outlet is coupled to the bore of the boss by a metal-bonding adhesive material. 7. The compressed gas cylinder of claim 1, wherein the comrpressed gas cylinder stores compressed gas at pressures of about 700 bar. 8. The compressed gas cylinder of claim 7, wherein the compressed gas is hydrogen, helium or methane. 9. The compressed gas cylinder of claim 1, wherein the insert is a flow through type or plug type insert. 10. The compressed gas cylinder of claim 1 wherein the insert further comprises a conical sleeve fit to the insert and forming at least the tapered compression surface, the sleeve forming a decompression leak path between the sleeve and the insert. 11. The compressed gas cylinder of claim 10 wherein the conical sleeve has a tapered outside surface forming the tapered compression surface, a cylindrical inside bore fit to the cylindrical plug, and has an upstream end, the upstream end forming the high pressure wall of the annular seal groove. 12. The compressed gas cylinder of claim 11, wherein both of the conical sleeve and the insert are formed of metal. 13. The compressed gas cylinder of claim 1 further comprising a stop extending radially into the boss's bore, an annular distal end of the liner outlet engaging the stop for restraining axial movement of the annular distal end. 14. An anti-extrusion structure forming a seal at an outlet of a compressed gas cylinder containing high pressure gas, the cylinder having a plastic liner, the structure comprising: a plastic liner outlet of the plastic liner extending into a bore of a metal boss at an outlet of a pressure vessel for containing high pressure gas therein, the plastic liner outlet having a cylindrical bore and a tapered bore;a metal insert engageable with the metal boss and interfacing with the plastic liner outlet, the metal insert having a cylindrical plug, an annular seal groove located along the cylindrical plug having an annular seal element therein and a tapered compression surface, the cylindrical plug being substantially immediately adjacent a high pressure wall of the annular seal groove, and the tapered compression surface being substantially immediately adjacent a downstream wall of the annular seal groove, wherein,when engaged, the metal insert forms an anti-extrusion seal with the plastic liner, the cylindrical plug and the annular element entering the cylindrical bore to form an assembly clearance therebetween and the tapered compression surface compressing the tapered bore at an annular tapered interface to close the annular assembly clearance at the downstream wall of the annular seal groove.
Funck,Ralph, Pressurized container for storing pressurized liquid and/or gaseous media, consisting of a plastic core container which is reinforced with fibre-reinforced plastics and a method for producing the sam.
Sirosh Sadanandan Neel,CAX ; Van Oyen Hans C.,CAX ; Tamura Masayuki,JPX ; Yokoyama Kazutaka,JPX ; Endo Hajime,JPX, Seal system for fluid pressure vessels.
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