IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
|
출원번호 |
US-0349827
(2003-01-23)
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발명자
/ 주소 |
- Faas, Wayne R.
- Grabau, Ted D.
- Barron, Kimball R.
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출원인 / 주소 |
- Fisher Controls International LLC
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
14 인용 특허 :
22 |
초록
▼
A seal assembly is adapted for use in a valve having a trim cage with an inner surface extending along an axis and a plug sized to fit inside the trim cage inner surface, wherein the plug is adapted to move along the axis. The seal assembly includes a spring-loaded seal ring disposed between the plu
A seal assembly is adapted for use in a valve having a trim cage with an inner surface extending along an axis and a plug sized to fit inside the trim cage inner surface, wherein the plug is adapted to move along the axis. The seal assembly includes a spring-loaded seal ring disposed between the plug and the trim cage inner surface, the seal ring including a center spring member and a jacket formed of a fluoropolymer resin to tightly seal between the plug and the trim cage inner surface. A first wiper ring is disposed between the plug and the trim cage inner surface and positioned axially upstream of the seal ring, and a second wiper ring is disposed between the plug and the trim cage inner surface and positioned axially downstream of the seal ring. Each of the first and second wiper rings has an outside surface sized to engage the trim cage inner surface and is formed of a material sufficiently rigid to scrape foreign material from the bore surface yet sufficiently soft to minimize damage to the bore.
대표청구항
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1. A valve comprising:a body defining a bore extending along an axis; a plug sized to fit inside the bore and adapted for slidable movement along the bore axis; a seal ring disposed between the plug and the bore, the seal ring being formed of a flexible material to tightly seal between the plug and
1. A valve comprising:a body defining a bore extending along an axis; a plug sized to fit inside the bore and adapted for slidable movement along the bore axis; a seal ring disposed between the plug and the bore, the seal ring being formed of a flexible material to tightly seal between the plug and the bore; a first wiper ring disposed between the plug and bore and positioned axially upstream of the seal ring; a second wiper ring disposed between the plug and the bore and positioned axially downstream of the seal ring; a first back-up ring positioned between the second wiper ring and the seal ring and, a second back-up positioned axaially downstream of the second wiper ring; wherein each of the first and second wiper rings have an outside surface sized to engage the bore and are formed of a wiper ring material sufficiently rigid to scrape foreign material from a surface of the bore as the plug moves yet sufficiently resilient to minimize damage to the bore surface. 2. The valve of claim 1, in which the wiper ring material comprises a high temperature thermoplastic.3. The valve of claim 2, in which the wiper ring material substantially maintains rigidity and resilience in process temperatures of at least 450 degrees F.4. The valve of claim 3, in which the wiper ring material comprises PEEK.5. The valve of claim 4, in which the PEEK includes a filler material.6. The valve of claim 5, in which the filler material comprises a material selected from a group of materials consisting of carbon, carbon/graphite, mineral filler, glass fiber, and molybdenam disulfide.7. The valve of claim 4, in which the PEEK includes a reinforcing material.8. The valve of claim 7, in which the reinforcing material comprises a material selected from a group of materials consisting of carbon, carbon/graphite, mineral filler, glass fiber, and molybdenam disulfide.9. The valve of claim 1 in which the seal ring comprises an inner spring and a jacket formed of a fluoropolymer resin.10. A seal assembly for use in a valve having a trim cage with an inner surface extending along an axis and a plug sized to fit inside the trim cage inner surface, the plug adapted to move along the axis, the seal assembly comprising:a seal ring disposed between the plug and the trim cage inner surface, the seal ring being formed of a flexible material adapted to tightly seal between the plug and the trim cage inner surface; a first wiper ring disposed between the plug and the trim cage inner surface positioned axially upstream of the seal ring; a second wiper ring disposed between the plug and the trim cage inner surface positioned axially downstream of the seal ring; a first back-up ring positioned between the second wiper ring and the seal ring; and, a second back-up ring positioned axially downstream of the second wiper ring; wherein each of the first and second wiper rings has an outside surface sized to engage the trim cage inner surface and is formed of a wiper ring material sufficiently rigid to remove foreign material from the trim cage inner surface as the plug moves yet sufficiently resilient to minimize damage to the bore surface. 11. The seal assembly of claim 10, in which the wiper ring material comprises a high temperature thermoplastic.12. The seal assembly of claim 11, in which the wiper ring material substantially maintains rigidity and resilience in process temperatures of at least 450 degrees F.13. The seal assembly of claim 12, in which the wiper ring material comprises PEEK.14. The seal assembly of claim 13, in which the PEEK includes a filler material.15. The seal assembly of claim 14, in which the filler material comprises a material selected from a group of materials consisting of carbon, carbon/graphite, mineral filler, glass fiber, and molybdenam disulfide.16. The seal assembly of claim 13, in which the PEEK includes a reinforcing material.17. The seal assembly of claim 16, in which the reinforcing material comprises a material selected from a group of materials consisting of carbon, carbon/graphite, mineral filler, glass fiber, and molybdenam disulfide.18. The seal assembly of claim 10 in which the seal ring comprises an inner spring and a jacket formed of a fluoropolymer resin.19. A valve comprising:a body defining a bore extending along an axis; a plug sized to fit inside the bore and adapted for slidable movement along the bore axis, the plug including a shoulder; a seal ring disposed between the plug and the bore, the seal ring being formed of a flexible material to tightly seal between the plug and the bore; a first wiper ring disposed between the plug and bore and positioned axially upstream of the seal ring; a second wiper ring disposed between the plug and the bore and positioned axially downstream of the seal ring; and a back-up ring positioned between the second wiper ring and the seal ring, the back-up ring including an inner flange sized to engage the plug shoulder, the inner flange limiting movement of the back-up ring toward the seal thereby to minimize a compressive load on the seal as the plug moves axially upstream; wherein each of the first and second wiper rings have an outside surface sized to engage the bore and are formed of a wiper ring material sufficiently rigid to scrape foreign material from a surface of the bore as the plug moves yet sufficiently resilient to minimize damage to the bore surface. 20. The valve of claim 19, in which the wiper ring material comprises a high temperature thermoplastic.21. The valve of claim 20, in which the wiper ring material substantially maintains rigidity and resilience in process temperatures of at least 450 degrees F.22. The valve of claim 21, in which the wiper ring material comprises PEEK.23. The valve of claim 22, in which the PEEK includes a filler material.24. The valve of claim 22, in which the PEEK includes a reinforcing material.25. The valve of claim 19, in which the seal ring comprises in inner spring and a jacket formed of a fluoropolymer resin.
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