A cascade type trim for integration into control valve and having a valve stem and a valve cage which cooperate with each other to define a plurality of fluid passageway columns, each of which extend between a valve inlet and a valve outlet. Each fluid passageway column is collectively defined by a
A cascade type trim for integration into control valve and having a valve stem and a valve cage which cooperate with each other to define a plurality of fluid passageway columns, each of which extend between a valve inlet and a valve outlet. Each fluid passageway column is collectively defined by a plurality of stem passageways and a plurality of cage passageways. The stem and cage passageways are brought in and out of alignment as a result of axial movement of the stem relative to the cage. In a first position, a first fluid passageway is open, while a second fluid passageway remains closed. In a second position, both the first and second fluid passageways are open, and yet in a third position, the first fluid passageway is closed and the second fluid passageway is open.
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1. A cascade trim for a fluid control valve, the cascade trim comprising: a valve cage defining a valve inlet and a valve outlet; anda valve stem reciprocally moveable within the valve cage, the valve cage and valve stem collectively defining a first fluid passageway column and a second fluid passag
1. A cascade trim for a fluid control valve, the cascade trim comprising: a valve cage defining a valve inlet and a valve outlet; anda valve stem reciprocally moveable within the valve cage, the valve cage and valve stem collectively defining a first fluid passageway column and a second fluid passageway column, each of the first and second fluid passageway columns extending at least partially through the valve cage and the valve stem between the valve inlet and the valve outlet;the valve stem being moveable between: a closed position relative to the valve cage, wherein both the first and second fluid passageway columns are closed to prevent fluid from flowing between the valve inlet and valve outlet through the first and second fluid passageway columns;a first passageway position wherein the first fluid passageway column is open and the second fluid passageway column is closed to allow fluid to flow between the valve inlet and valve outlet through the first fluid passageway column; anda second passageway position wherein the second fluid passageway column is open and the first fluid passageway column is closed to allow fluid to flow between the valve inlet and valve outlet through the second fluid passageway column. 2. The cascade trim according to claim 1, wherein the valve stem is further moveable to an open position wherein the first fluid passageway column is open and the second fluid passageway column is open to allow fluid to flow between the valve inlet and the valve outlet through the first and second fluid passageway columns. 3. The cascade trim according to claim 1, wherein the first fluid passageway column is formed to exhibit flow characteristics that differ from the second fluid passageway column. 4. The cascade trim according to claim 1, wherein the valve cage includes a plurality of first cage passageways forming part of the first fluid passageway column and a plurality of second cage passageways forming part of the second fluid passageway column. 5. The cascade trim according to claim 4, wherein the plurality of first cage passageways are spaced from the plurality of second cage passageways. 6. The cascade trim according to claim 4, wherein: the valve stem includes a plurality of first stem passageways forming part of the first fluid passageway column and a plurality of second stem passageways forming part of the second fluid passageway column;the first cage passageways are aligned with the first stem passageways when the first fluid passageway column is open; andthe second cage passageways are aligned with the second stem passageways when the second fluid passageway column is open. 7. The cascade trim according to claim 6, wherein the plurality of first stem passageways are spaced from the plurality of second stem passageways. 8. The cascade trim according to claim 6, wherein each of the plurality of second stem passageways include an axial portion and an arcuate portion. 9. The cascade trim according to claim 1, wherein the valve cage and the valve stem are both formed through direct metal laser sintering. 10. The cascade trim according to claim 1, further comprising a sleeve disposable about the valve stem between the valve stem and the valve cage, the sleeve cooperating with the valve stem and valve cage to define the first fluid passageway column and the second fluid passageway column. 11. The cascade trim according to claim 1, wherein: the first fluid passageway column is configured such that as fluid flows therethrough from the valve inlet to the valve outlet, the fluid makes a first number of transitions between the valve stem and the valve cage; andthe second fluid passageway column is configured such that as fluid flows therethrough from the valve inlet to the valve outlet, the fluid makes a second number of transitions between the valve stem and the valve cage;the first number of transitions being different from the second number of transitions. 12. A cascade trim for a fluid control valve, the cascade trim comprising: a valve cage defining a valve inlet and a valve outlet; anda valve stem reciprocally moveable within the valve cage, the valve cage and valve stem each being configured to collectively define a first fluid passageway column and a second fluid passageway column, each of the first and second fluid passageway columns extending between the valve inlet and the valve outlet;wherein reciprocal movement of the valve stem relative to the valve cage causes selective constitution and division of both the first fluid passageway column and the second fluid passageway column. 13. The cascade trim according to claim 12, wherein the valve stem is movable between: a first column position wherein the first fluid passageway column is constituted to allow fluid to flow through the first fluid passageway column, and the second passageway column is divided into separate detached segments such that fluid cannot flow through the second fluid passageway column from the valve inlet to the valve outlet; anda second column position wherein the second fluid passageway column is constituted to allow fluid to flow through the second fluid passageway column, and the first fluid passageway column is divided into separate detached segments such that fluid cannot flow through the first fluid passageway column from the valve inlet to the valve outlet. 14. The cascade trim according to claim 13, wherein the valve stem is further moveable to an open position wherein both the first and second fluid passageway columns are constituted to allow fluid to flow from the valve inlet to the valve outlet through both the first fluid passageway column and the second fluid passageway column. 15. The cascade trim according to claim 12, wherein the first fluid passageway column is formed to exhibit flow characteristics that differ from the second fluid passageway column. 16. The cascade trim according to claim 12, wherein the valve cage includes a plurality of first cage passageways forming part of the first fluid passageway column and a plurality of second cage passageways forming part of the second fluid passageway column. 17. The cascade trim according to claim 16, wherein the plurality of first cage passageways are spaced from the plurality of second cage passageways. 18. The cascade trim according to claim 16, wherein: the valve stem includes a plurality of first stem passageways forming part of the first fluid passageway column and a plurality of second stem passageways forming part of the second fluid passageway column;the first cage passageways are aligned with the first stem passageways when the first fluid passageway column is constituted; andthe second cage passageways are aligned with the second stem passageways when the second fluid passageway column is constituted. 19. The cascade trim according to claim 18, wherein the plurality of first stem passageways are spaced from the plurality of second stem passageways. 20. The cascade trim according to claim 13, wherein the valve cage and the valve stem are both formed through direct metal laser sintering.
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이 특허에 인용된 특허 (27)
Spils Richard W. (2225 Spenard Rd. Anchorage AK 99503), Angle globe valve.
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