Choke valve flow trim for fracture prevention
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16K-003/24
F16K-003/00
F16K-047/14
F16K-047/00
출원번호
US-0334047
(2006-01-18)
등록번호
US-7426938
(2008-09-23)
발명자
/ 주소
Bohaychuk,Larry J.
Kowalchuk,Loren
Rabby,Patrick
Dannish,Chad
출원인 / 주소
Master Flo Valve Inc.
대리인 / 주소
Greenlee Winner and Sullivan PC
인용정보
피인용 횟수 :
9인용 특허 :
16
초록▼
A choke valve having flow trim components, namely a tubular cage and a flow collar or plug, and related components, designed and arranged for reduced fracturing. The invention includes a protective tubular sleeve, or insert cartridge in which the side ports are located to overlap with the intersecti
A choke valve having flow trim components, namely a tubular cage and a flow collar or plug, and related components, designed and arranged for reduced fracturing. The invention includes a protective tubular sleeve, or insert cartridge in which the side ports are located to overlap with the intersection of axes of the inlet and outlet bores, but to avoid direct impingement of fluid along the axis of the inlet bore. In the cage, at least a pair of main flow ports are located to overlap with the intersection of the axes of the inlet and outlet bores, and are aligned with the side ports of the tubular sleeve or cartridge to communicate directly with the side ports. In this manner fluid may enter the choke valve through the inlet bore and pass through the main flow ports at reduced pressure and continue out through the outlet bore, without direct impingement on the side wall of the flow trim components.
대표청구항▼
The invention claimed is: 1. A choke valve having a fluid flow path extending therethrough which is to be restricted or closed, comprising: a hollow valve body assembly having an inlet bore and an outlet bore substantially at right angles, and a main bore which is an extension of the outlet bore an
The invention claimed is: 1. A choke valve having a fluid flow path extending therethrough which is to be restricted or closed, comprising: a hollow valve body assembly having an inlet bore and an outlet bore substantially at right angles, and a main bore which is an extension of the outlet bore and which communicates with the inlet bore; a tubular sleeve having a side wall positioned in the main bore across the inlet bore and forming only one pair of diametrically opposed side ports communicating with the inlet bore, the side ports being located to overlap the intersection of the centre axes of the inlet and outlet bores, and such that an axis through a midpoint of the side ports is offset relative to the centre axis of the inlet bore so that direct impingement of fluid along the centre axis of the inlet bore is on the side wall of the tubular sleeve; a flow trim within the tubular sleeve comprising a stationary tubular cage aligned with the body outlet, and a flow collar or plug slidable along the side wall of the cage, the cage side wall forming an internal bore aligned with the outlet bore and at least one pair of diametrically opposed main flow ports located to overlap the intersection of the centre axes of the inlet and outlet bores, one pair of the at least one pair of main flow ports being aligned with the side ports of the tubular sleeve to communicate directly with the side ports, whereby fluid may enter the choke valve through the inlet bore and pass through the main flow ports at reduced pressure and continue through the outlet bore; a bonnet connected with and closing the upper end of the tubular sleeve and the body, the bonnet being disengagably connected with the body; and a stem for biasing the flow collar or plug over the main flow ports. 2. The choke valve of claim 1, wherein: the inlet bore and outlet bore are arranged in a T-shape to provide a body side inlet, a body outlet and an insert chamber at the intersection of the inlet and outlet; and the tubular sleeve and the flow trim are arranged as a removable insert assembly positioned in the insert chamber, the insert assembly comprising: i. a tubular cartridge having a side wall forming an internal bore and a pair of diametrically opposed side ports communicating with the body inlet, whereby fluid enters through the side ports from the body inlet, the side ports being located to overlap the intersection of the centre axes of the body inlet and the body outlet, and such that the axis through a midpoint of the side ports is offset relative to the centre axis of the body inlet so that direct impingement by fluid moving along the centre inlet axis is on the side wall of the tubular cartridge; ii. the flow trim positioned in the cartridge internal bore, the flow trim comprising the tubular cage aligned with the body outlet, and the flow collar or plug slidable along the side wall of the cage, the cage side wall forming the at least one pair of diametrically opposed main flow ports located to overlap the intersection of the centre axes of the inlet and outlet, and one pair of the at least one pair of main flow ports being aligned with the side ports of the tubular cartridge to communicate directly with the side ports, whereby fluid from the inlet may enter the cage bore at reduced pressure and pass through the outlet; iii. the bonnet connected with and closing the upper end of the tubular cartridge and the body, the bonnet being disengagably connected with the body; and iv. the stem for biasing the flow collar or plug over the main flow ports. 3. The choke valve of claim 2, wherein the insert chamber is diametrically enlarged to reduce the flow velocity of fluid compared to that in the inlet. 4. The choke valve of claim 3, further comprising at least a pair of diametrically opposed secondary flow ports formed in the side wall of the cage, the secondary flow ports having a smaller diameter than that of the main flow ports and each pair of secondary flow ports being positioned with an axis which is offset by 90�� from the axis of the main flow ports and closer to the body outlet than are the main flow ports; and protuberances extending inwardly into the internal bore of the tubular cartridge from the side wall of the tubular cartridge and being aligned with each of the secondary flow ports, so that fluid moving through an annulus formed between the flow trim and the tubular cartridge is deflected inwardly by the protuberances to enter the cage through the secondary flow ports. 5. The choke valve of claim 4, comprising only one pair of main flow ports and only one pair of secondary flow ports, and the side ports of the tubular cartridge being positioned with an axis which is offset by 90�� relative to the centre axis of the inlet. 6. The choke valve of claim 5, wherein the flow trim includes the flow collar. 7. The choke valve of claim 6, wherein the protuberances are of a length which at least spans the diameter of the secondary flow ports, and have inwardly tapered side walls. 8. The choke valve of claim 1, wherein the main bore is diametrically enlarged to reduce the flow velocity of fluid compared to that in the inlet bore. 9. The choke valve of claim 8, further comprising at least a pair of diametrically opposed secondary flow ports formed in the side wall of the cage, the secondary flow ports having a smaller diameter than that of the main flow ports and each pair of secondary flow ports being positioned with an axis which is offset by 90�� from the axis of the main flow ports and closer to the body outlet than are the main flow ports; and protuberances extending inwardly into the internal bore of the tubular sleeve from the side wall of the tubular sleeve and being aligned with each of the secondary flow ports, so that fluid moving through an annulus formed between the flow trim and the tubular sleeve is deflected inwardly by the protuberances to enter the cage through the secondary flow ports. 10. The choke valve of claim 9, comprising only one pair of main flow ports and only one pair of secondary flow ports, and the side ports of the tubular sleeve being positioned with an axis which is offset by 90�� relative to the centre axis of the inlet. 11. The choke valve of claim 10, wherein the flow trim includes the flow collar. 12. The choke valve of claim 11, wherein the protuberances are of a length which at least spans the diameter of the secondary flow ports, and have inwardly tapered side walls. 13. The removable insert assembly as set forth in claim 2.
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이 특허에 인용된 특허 (16)
Taylor Julian S. (8300 SW 8th Oklahoma City OK 73128), Angle body restrictor valve.
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