Liner displacement control valve including valve trim with spindle and flow control element for improved low flow control
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16K-047/08
B01D-035/04
F16K-031/50
출원번호
US-0033249
(2013-09-20)
등록번호
US-9175787
(2015-11-03)
발명자
/ 주소
Naziri, Kevin
Clark, Graham
출원인 / 주소
Control Components, Inc.
대리인 / 주소
Stetina Brunda Garred & Brucker
인용정보
피인용 횟수 :
0인용 특허 :
8
초록▼
A linear displacement control valve comprising a valve body having a valve bonnet cooperatively engage thereto. The body and the bonnet collectively accommodate a valve trim which comprises a flow control element and a complementary spindle. The spindle is preferably attached to a reciprocally movab
A linear displacement control valve comprising a valve body having a valve bonnet cooperatively engage thereto. The body and the bonnet collectively accommodate a valve trim which comprises a flow control element and a complementary spindle. The spindle is preferably attached to a reciprocally movable valve stem of the control valve via a stem adaptor. The stem adaptor is adapted to allow for some measure of “float” between the spindle and the flow control element as may be needed to accommodate any misalignment therebetween. The spindle is uniquely configured such that when used in conjunction with the flow control element, the trim is capable of providing low end flow control at a higher level of accuracy and/or wider rangeability.
대표청구항▼
1. A control valve for regulating the flow of a fluid, the valve comprising: a housing defining a fluid inlet and a fluid outlet;a flow control element disposed within the housing between the fluid inlet and the fluid outlet, the flow control element being configured to dissipate energy in a fluid f
1. A control valve for regulating the flow of a fluid, the valve comprising: a housing defining a fluid inlet and a fluid outlet;a flow control element disposed within the housing between the fluid inlet and the fluid outlet, the flow control element being configured to dissipate energy in a fluid flowing therethrough from the fluid inlet to the fluid outlet; anda spindle disposed within the housing and reciprocally moveable between closed and open positions relative thereto, the spindle including a multiplicity of labyrinth grooves formed therein in series, labyrinth grooves being sized and configured to mitigate any high velocity annular fluid flow between the flow control element and the spindle when the spindle is moved to the open position; anda stem which is operatively coupled to the spindle by a stem adaptor adapted to allow for a prescribed amount of movement of the spindle relative to the stem and the flow control element during the movement of the spindle between the open and closed positions. 2. The control valve of claim 1 wherein: the spindle comprises a shank portion having a generally cylindrical needle portion which protrudes therefrom and is of a prescribed outer diameter, the needle portion including the labyrinth grooves formed therein;the flow control element includes a bore defined by an inner surface thereof which is of a prescribed inner diameter, the bore accommodating at least part of the needle portion when the spindle is in either of the open and closed positions; andthe outer diameter of the needle portion and the inner diameter of the flow control element are sized relative to each other such that a prescribed dimensional tolerance therebetween, in combination with the labyrinth grooves, substantially mitigates any high velocity annular fluid flow between flow control element and the spindle when the spindle is moved to the open position. 3. The control valve of claim 1 wherein each of the labyrinth grooves has a generally square profile with sharp edges, and is formed to be of a depth of about 0.02 inches and a width of about 0.02 inches. 4. The control valve of claim 1 wherein: the stem is threadably connected to the stem adaptor; andthe spindle is movably attached to the stem adaptor in a manner which compensates for a prescribed level of misalignment between the spindle and the flow control element when the spindle is moved between the open and closed positions. 5. The control valve of claim 4 wherein: the housing comprises a body which defines a gallery, and a bonnet which is attached to the body and defines a bonnet bore communicating with the gallery thereof;the flow control element is disposed within the gallery and the stem adaptor at least partially resides within the bore throughout the range of movement of the spindle between the open and closed positions; andthe stem adaptor includes at least one channel formed therein which facilitates fluid communication between the gallery and the bonnet bore. 6. The control valve of claim 1 further comprising an internal strainer which is disposed within the housing between the fluid inlet and the flow control element, the strainer at least partially circumventing the flow control element. 7. The control valve of claim 1 wherein the flow control element is a unitary structure defining a multiplicity of tortuous and non-tortuous energy dissipating flow passageways. 8. The control valve of claim 1 further comprising a seat ring defining a flow opening which extends therethrough and a sealing surface which circumvents the flow opening, a portion of the spindle and the sealing surface having complimentary configurations and being maintained in sealed engagement to each other when the spindle is in the closed position. 9. A control valve for regulating the flow of a fluid, the valve comprising: a housing defining a fluid inlet and a fluid outlet;a flow control element disposed within the housing between the fluid inlet and the fluid outlet, the flow control element including a bore defined by an inner surface thereof which is of a prescribed inner diameter, the flow control element being configured to dissipate energy in a fluid flowing therethrough from the fluid inlet to the fluid outlet;a spindle disposed within the housing and reciprocally moveable between closed and open positions relative thereto, the spindle including a shank portion having a generally cylindrical needle portion which protrudes therefrom and is of a prescribed outer diameter, the needle portion including at least one labyrinth groove formed therein, the bore of the flow control element accommodating at least part of the needle portion when the spindle is in either of the open and closed positions, the outer diameter of the needle portion and the inner diameter of the flow control element being sized relative to each other such that a prescribed dimensional tolerance therebetween, in combination with the at least one labyrinth groove, substantially mitigates any high velocity annular fluid flow between the flow control element and the spindle when the spindle is moved to the open position; anda stem which is operatively coupled to the spindle by a stem adaptor adapted to allow for a prescribed amount of movement of the spindle relative to the stem and the flow control element during the movement of the spindle between the open and closed positions. 10. The control valve of claim 9 wherein the needle portion of the spindle includes a multiplicity of labyrinth grooves formed therein in series. 11. The control valve of claim 10 wherein each of the labyrinth grooves has a generally square profile with sharp edges, and is formed to be of a depth of about 0.02 inches and a width of about 0.02 inches. 12. The control valve of claim 9 wherein: the stem is threadably connected to the stem adaptor; andthe shank portion of the spindle is movably attached to the stem adaptor in a manner which compensates for a prescribed level of misalignment between the needle portion and the flow control element when the spindle is moved between the open and closed positions. 13. The control valve of claim 9 wherein: the housing comprises a body which defines a gallery, and a bonnet which is attached to the body and defines a bonnet bore communicating with the gallery thereof;the flow control element is disposed within the gallery and the stem adaptor at least partially resides within the bore throughout the range of movement of the spindle between the open and closed positions; andthe stem adaptor includes at least one channel formed therein which facilitates fluid communication between the gallery and the bonnet bore. 14. The control valve of claim 9 further comprising an internal strainer which is disposed within the housing between the fluid inlet and the flow control element, the strainer at least partially circumventing the flow control element. 15. The control valve of claim 9 wherein the flow control element is a unitary structure defining a multiplicity of tortuous and non-tortuous energy dissipating flow passageways. 16. The control valve of claim 9 further comprising a seat ring defining a flow opening which extends therethrough and a sealing surface which circumvents the flow opening, a portion of the spindle and the sealing surface having complimentary configurations and being maintained in sealed engagement to each other when the spindle is in the closed position. 17. A control valve for regulating the flow of a fluid, the valve comprising: a housing defining a fluid inlet and a fluid outlet;a flow control element disposed within the housing between the fluid inlet and the fluid outlet, the flow control element being configured to dissipate energy in a fluid flowing therethrough from the fluid inlet to the fluid outlet; anda spindle disposed within the housing and reciprocally moveable between closed and open positions relative thereto, the spindle including a multiplicity of labyrinth grooves formed therein in series, the labyrinth grooves being sized and configured to mitigate any high velocity annular fluid flow between the flow control element and the spindle when the spindle is moved to the open position;wherein each of the labyrinth grooves has a generally square profile with sharp edges, and is formed to be of a depth of about 0.02 inches and a width of about 0.02 inches. 18. The control valve of claim 17 wherein: the spindle comprises a shank portion having a generally cylindrical needle portion which protrudes therefrom and is of a prescribed outer diameter, the needle portion including the labyrinth grooves formed therein;the flow control element includes a bore defined by an inner surface thereof which is of a prescribed inner diameter, the bore accommodating at least part of the needle portion when the spindle is in either of the open and closed positions; andthe outer diameter of the needle portion and the inner diameter of the flow control element are sized relative to each other such that a prescribed dimensional tolerance therebetween, in combination with the labyrinth grooves, substantially mitigates any high velocity annular fluid flow between flow control element and the spindle when the spindle is moved to the open position. 19. The control valve of claim 17 further comprising an internal strainer which is disposed within the housing between the fluid inlet and the flow control element, the strainer at least partially circumventing the flow control element. 20. The control valve of claim 17 wherein the flow control element is a unitary structure defining a multiplicity of tortuous and non-tortuous energy dissipating flow passageways.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (8)
Stares James A. (Norton MA), Control valve with anticavitation trim.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.