IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0990618
(2004-11-17)
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발명자
/ 주소 |
- Meyers,Kenneth A.
- Moon,Thomas A.
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출원인 / 주소 |
- In Well Technologies Inc.
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
8 인용 특허 :
26 |
초록
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A fluid pressure system (S) includes a flexible diaphragm bladder (172) located inside a pressure tank (164) installed within a fluid system such as well (168). In preferred aspects, the bladder (172) can be inflated by the introduction of air and is located within a flexible confining tube (198) fo
A fluid pressure system (S) includes a flexible diaphragm bladder (172) located inside a pressure tank (164) installed within a fluid system such as well (168). In preferred aspects, the bladder (172) can be inflated by the introduction of air and is located within a flexible confining tube (198) for preventing over expansion of the bladder (172) and in the preferred form being of a cylindrical configuration and arranged concentrically around the bladder (172). The bladder (172) and the confining tube (198) are free floating in and without physical connection with the pressure tank (164) in preferred forms. The pressure tank (164) includes a flexible side wall ( 196) to allow folding or willing of the assembled fluid pressure system (S) in preferred forms.
대표청구항
▼
What is claimed is: 1. Fluid pressure system comprising, in combination: a pressure tank through which fluid passes; and an expandable bladder located in the pressure tank, with the bladder defining a volume which can compress or expand according to pressure of fluid intermediate the bladder and th
What is claimed is: 1. Fluid pressure system comprising, in combination: a pressure tank through which fluid passes; and an expandable bladder located in the pressure tank, with the bladder defining a volume which can compress or expand according to pressure of fluid intermediate the bladder and the pressure tank, with the bladder being free floating in the fluid in the pressure tank, wherein the pressure tank includes an inlet opening and an outlet opening, with fluid flowing into the inlet opening and out of the outlet opening through the pressure tank, wherein the volume of the bladder contains a compressible gas, with a valve in communication with the volume for adding the compressible gas to the volume, with the valve being accessible for adjustment of the compressible gas through one of the inlet and outlet openings of the pressure tank. 2. The fluid pressure system of claim 1 wherein the bladder is free of physical connection with the pressure tank. 3. The fluid pressure system of claim 2 with the pressure tank including a downstream retainer for preventing movement of the bladder past the downstream retainer and through the outlet opening. 4. Fluid pressure system comprising, in combination: a pressure tank through which fluid passes; and an expandable bladder located in the pressure tank, with the bladder defining a volume which can compress or expand according to pressure of fluid intermediate the bladder and the pressure tank, with the bladder being free floating in the fluid in the pressure tank, wherein the bladder is free of physical connection with the pressure tank, wherein the pressure tank includes an inlet opening and an outlet opening, with fluid flowing into the inlet opening and out of the outlet opening through the pressure tank, with the pressure tank including a downstream retainer for preventing movement of the bladder past the downstream retainer and through the outlet opening, wherein the bladder includes a downstream end adjacent to the outlet opening and an upstream end, with the fluid pressure system including a bumper for abutting between the downstream retainer and the downstream end, with the bumper spacing at least portions of the downstream end from the downstream retainer allowing fluid flow between the downstream end and the downstream retainer. 5. The fluid pressure system of claim 4 wherein the downstream end of the bladder includes a rigid downstream end cap having a periphery, with the bladder secured to and sealed to the rigid downstream end cap, with the bumper mounted to the rigid downstream end cap. 6. The fluid pressure system of claim 5 wherein the volume of the bladder contains a compressible gas, with a valve passing through the downstream end cap and in communication with the volume for adding the compressible gas to the volume. 7. The fluid pressure system of claim 6 wherein the upstream end of the bladder includes a rigid upstream end cap, with the bladder secured to and sealed to the rigid upstream end cap, with the pressure tank including an upstream retainer for preventing movement of the bladder past the upstream retainer and through the inlet opening. 8. The fluid pressure system of claim 7 wherein the rigid upstream and downstream end caps are of equal cross sectional sizes, with the bladder formed of flexible material which is impermeable to the compressible gas and the fluid and which is expandable under pressure of the compressible gas, with the fluid pressure system further comprising, in combination: a confining tube formed of flexible material which generally does not expand under pressure of the compressible gas, with the confining tube restricting the expansion of the bladder. 9. The fluid pressure system of claim 8 wherein the confining tube is of a constant annular size generally equal to the cross sectional sizes of the upstream and downstream end caps and generally maintaining the constant annular size, with the bladder located in the confining tube. 10. The fluid pressure system of claim 9 wherein the bladder is formed of butyl rubber and the confining tube is formed of nylon reinforced polyurethane. 11. The fluid pressure system of claim 9 wherein the pressure tank is formed of flexible material which is impermeable to the fluid, with the pressure tank maintaining a constant size under pressure by the fluid. 12. The fluid pressure system of claim 11 with the pressure tank including first and second rigid end caps of equal cross sectional sizes and a cylindrical sidewall, with the cylindrical sidewall secured and sealed to and between the first and second rigid end caps, with the first rigid end cap including the inlet opening and the second rigid end cap including the outlet opening. 13. The fluid pressure system of claim 12 with the flexible material forming the pressure tank is the same as the flexible material forming the confining tube. 14. Fluid pressure system comprising, in combination: a pressure tank through which fluid passes; and an expandable bladder located in the pressure tank, with the bladder defining a volume which can compress or expand according to pressure of fluid intermediate the bladder and the pressure tank, with the bladder being free floating in the fluid in the pressure tank, wherein the pressure tank is formed of flexible material which is impermeable to the fluid, with the pressure tank maintaining a constant size under pressure by the fluid, with the bladder formed of flexible material. 15. The fluid pressure system of claim 14 further comprising, in combination: a confining tube formed of flexible material, with the confining tube restricting the expansion of the bladder. 16. Fluid pressure system comprising, in combination: a pressure tank through which fluid passes; an expandable bladder located in the pressure tank, with the bladder defining a volume which can compress or expand according to pressure of fluid intermediate the bladder and the pressure tank, with the bladder formed of flexible material; and a confining tube formed of flexible material, with the confining tube restricting the expansion of the bladder. 17. The fluid pressure system of claim 16 wherein the bladder includes rigid upstream and downstream end caps of equal cross-sectional sizes and a cylindrical, flexible side wall, with the end caps sealed to the cylindrical flexible side wall. 18. The fluid pressure system of claim 17 wherein the confining tube is of a constant annular size generally equal to the cross sectional sizes of the upstream and downstream end caps and generally maintaining the constant annular size, with the bladder located in the confining tube. 19. Fluid pressure system comprising, in combination: a pressure tank through which fluid passes; and an expandable bladder located in the pressure tank, with the bladder defining a volume which can compress or expand according to pressure of fluid intermediate the bladder and the pressure tank, with the bladder formed of flexible material, wherein the pressure tank is formed of flexible material which is impermeable to the fluid, with the pressure tank maintaining a constant size under pressure by the fluid. 20. The fluid pressure system of claim 19 further comprising, in combination: a confining tube formed of flexible material, with the confining tube restricting the expansion of the bladder. 21. The fluid pressure system of claim 19 wherein the pressure tank includes an inlet opening and an outlet opening, with fluid flowing into the inlet opening and out of the outlet opening through the pressure tank, with the pressure tank including first and second rigid end caps of equal cross sectional sizes and a cylindrical sidewall, with the sidewall secured and sealed to and between the first and second rigid end caps, with the first rigid end cap including the inlet opening and the second rigid end cap including the outlet opening. 22. The fluid pressure system of claim 1 wherein the bladder includes a first rigid end cap, with the valve passing through the first rigid end cap, with the first rigid end cap being separately formed from the pressure tank. 23. The fluid pressure system of claim 22 wherein the bladder includes a second rigid end cap, with the bladder secured to and sealed to the first and second rigid end caps.
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