IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0154485
(2005-06-16)
|
등록번호 |
US-7357023
(2008-04-15)
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발명자
/ 주소 |
- Parris,Earl H.
- Greenfield,Timothy L.
- Weaver,Andrew S.
|
출원인 / 주소 |
- Parris,Earl H.
- Greenfield,Timothy L.
- Weaver,Andrew S.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
11 |
초록
▼
The present invention relates to an apparatus and method for upgrading fluid meters with improved modular check valve technology. The check valve module is secured within the meter using only external fasteners. The check valve module may also include a seal. The seal may be inspected by simply remo
The present invention relates to an apparatus and method for upgrading fluid meters with improved modular check valve technology. The check valve module is secured within the meter using only external fasteners. The check valve module may also include a seal. The seal may be inspected by simply removing the external fasteners securing the check valve module within the enclosure and removing the check valve module from the enclosure. The check valve module may include a test port for testing the operation of the check valve. Additionally, a module insert is disclosed comprising a screen module, a metering module, a check valve module, and a bypass arm for dual metering solutions. The module insert may be installed in meter housing connected to a fluid delivery system or new meter housing. Additionally, the module insert may be constructed from materials substantially free of lead.
대표청구항
▼
What is claimed is: 1. A method of modifying a fluid meter, said method comprising the steps of: obtaining a compound meter comprising a housing, said housing comprising a main chamber for housing at least one meter element, a secondary chamber for housing a check valve assembly, and a flapper-valv
What is claimed is: 1. A method of modifying a fluid meter, said method comprising the steps of: obtaining a compound meter comprising a housing, said housing comprising a main chamber for housing at least one meter element, a secondary chamber for housing a check valve assembly, and a flapper-valve-seat; wherein said check valve assembly is comprised of multiple components including a flapper in fluid communication with said flapper-valve-seat; removing the check valve assembly components from the secondary chamber; and inserting an appropriately sized check valve module into the secondary chamber, said check valve module comprising a flapper associated with a spring. 2. A method of modifying a fluid meter as in claim 1, further comprising the steps of: removing the flapper-valve-seat from the secondary chamber; and associating a valve seat adapter with said check valve module, said valve seat adapter appropriately sized to replace removed the flapper-valve-seat. 3. A method of modifying a fluid meter as in claim 2, wherein: said secondary chamber is further configured with at least two flapper-shaft-receivers configured for receiving a flapper shaft; wherein said spring forms a coil and wherein a flapper shaft extends through said coil, said flapper being attached to said flapper shaft, said flapper shaft extending through both sides of said check valve module thereby forming a right shaft extension and a left shaft extension; and wherein said check valve module is inserted into the secondary chamber so that said right shaft extension is received by a flapper-shaft-receiver and said left shaft extension is received by a flapper-shaft-receiver. 4. A method of modifying a fluid meter as in claim 1, where said check valve module comprises a stem section and a valve section, said stem section extending outwardly from said valve section to a distal end, said method further comprising the step of providing a chamber plate configured to receive said stem section so that the distal end is outside the main chamber when said chamber plate is attached to the main chamber. 5. A method of modifying a compound meter as in claim 4, wherein said stem section comprises a fluid path for allowing fluid from the output port of the meter to flow to said distal end. 6. A method of modifying a compound meter as in claim 5, further comprising the step of providing an auxiliary port associated with said chamber plate, said auxiliary port in fluid communication with said distal end. 7. A method of modifying a fluid meter, said method comprising the steps of: obtaining a compound meter comprising a housing, said housing comprising a main chamber for housing a meter cage and a valve assembly; said meter cage comprising a high flow output and configured for receiving said valve assembly, said valve assembly comprising a swing weight and a swing seal; removing the valve assembly components from the meter cage; associating an adapter seal with one of (1) said a check valve module and (2) the high flow output of said meter cage; and associating said check valve module with said meter cage. 8. A method of modifying a fluid meter as in claim 7, where in the check valve module comprises a stem section and a valve section, said stem section extending outwardly from said valve section to a distal end, said method further comprising the step of providing a chamber plate configured to receive said stem section so that the distal end is outside the main chamber when said chamber plate is attached to the main chamber. 9. A method of modifying a fluid meter as in claim 8, wherein said stem section comprises a fluid path for allowing fluid from the output port of the meter to flow to said distal end. 10. A method of modifying a compound meter as in claim 9, further comprising the step of providing an auxiliary port associated with said chamber plate, said auxiliary port in fluid communication with said distal end. 11. A method of modifying a flow meter, said flow meter comprising a main chamber, a chamber plate, and a metering element associated with a check valve, said metering element disposed within said main chamber and enclosed therein by said chamber plate, said method comprising the steps of: removing the chamber plate from said main chamber; removing the metering element and the check valve from the flow meter; installing a module insert in said main chamber, said module insert comprising a first metering element and a check valve element; and enclosing said module insert at least partially within said main chamber with a module plate configured for detachably attaching to said main chamber. 12. A method of modifying a flow meter as in claim 11, said module insert further comprising a low flow bypass arm, said low flow bypass arm configured with a second metering element for measuring low flow rates relative to the first metering element. 13. A method of modifying a flow meter as in claim 11, where said check valve module comprises a stem section and a valve section, said stem section extending outwardly from said valve section to a distal end, and wherein said method further comprises the step of providing a module insert plate configured to receive said stem section so that the distal end is outside the module insert when said module insert chamber plate is attached to the main chamber. 14. A method of modifying a flow meter as in claim 13, wherein said stem section comprises a fluid path for allowing fluid from the output port of the meter to flow to said distal end. 15. A method of modifying a flow meter as in claim 14, further comprising the step of providing an auxiliary port associated with said module insert plate, said auxiliary port in fluid communication with said distal end. 16. A method of modifying a flow meter as in claim 11, wherein said module insert further comprises a screen element. 17. A method of modifying a flow meter as in claim 16, further comprising the steps of associating a low flow bypass arm with said module element, said low flow bypass arm configured with a second metering element configured to measure low flow rates relative to the first metering element. 18. A method of modifying a flow meter as in claim 11, where in said module insert further comprising a screen chamber for housing said screen element, a meter chamber for housing said metering element, and a check valve chamber for housing said check valve element. 19. A method of modifying a flow meter as in claim 18, further comprising the steps of associating a low flow bypass arm with said module element, said low flow bypass arm configured with a second metering element configured to measure low flow rates relative to the first metering element. 20. A method of modifying a flow meter as in claim 11, wherein said flow meter is associated with a fluid delivery system while said steps of modifying are performed.
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