IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0105635
(2011-05-11)
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등록번호 |
US-8806934
(2014-08-19)
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발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Andes, Esq., William Scott
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인용정보 |
피인용 횟수 :
2 인용 특허 :
3 |
초록
▼
A method and an assembly for sensing a process parameter are provided. The sensing assembly includes a base and a sensor assembly. The sensor assembly includes a sensing element, a first flow channel, and a second flow channel. The first flow channel includes a converging segment, a straightening se
A method and an assembly for sensing a process parameter are provided. The sensing assembly includes a base and a sensor assembly. The sensor assembly includes a sensing element, a first flow channel, and a second flow channel. The first flow channel includes a converging segment, a straightening segment, and a turning segment wherein the turning segment includes a turn radius configured to separate particles from a flow entering the turning segment and the second flow channel is configured to generate a low pressure area downstream of the sensing element. The sensing assembly also includes an extension member extending between the base and the sensor assembly.
대표청구항
▼
1. A sensing assembly comprising: a base;a sensor assembly, said sensor assembly comprising: a sensing element;a first flow channel comprising a converging segment, a straightening segment, and a turning segment, said turning segment comprising a turn radius configured to separate particles from a f
1. A sensing assembly comprising: a base;a sensor assembly, said sensor assembly comprising: a sensing element;a first flow channel comprising a converging segment, a straightening segment, and a turning segment, said turning segment comprising a turn radius configured to separate particles from a flow entering said turning segment; anda second flow channel substantially parallel to said first flow channel and configured to generate a low pressure area downstream of said sensing element; andan extension member extending between said base and said sensor assembly wherein said extension member comprises a first leg and a parallel second leg defining a third flow channel therebetween, said third flow channel substantially parallel to said first and second flow channels. 2. A sensing assembly in accordance with claim 1, wherein said third flow channel comprises a converging segment and a straightening segment. 3. A sensing assembly in accordance with claim 2, wherein a cross-section of each leg is symmetrical with respect to each other about a centerline of said third flow channel. 4. A sensing assembly in accordance with claim 1, wherein said sensing element of said sensor assembly further comprises a sheath at least partially surrounding said sensing element. 5. A sensing assembly in accordance with claim 1, wherein said sensing element of said sensor assembly further comprises a sheath comprising an inlet opening and an outlet opening spaced circumferentially about said sheath. 6. A sensing assembly in accordance with claim 1, wherein said first flow channel is defined by a first airfoil body and a center airfoil body. 7. A sensing assembly in accordance with claim 6, wherein said first airfoil body and center airfoil body, each extending orthogonally with respect to said extension member. 8. A sensing assembly in accordance with claim 6, wherein said first airfoil body comprises a J-shaped cross-section. 9. A sensing assembly in accordance with claim 1, wherein said second flow channel is defined by a second airfoil body and a center airfoil body, each airfoil body extending orthogonally with respect to said extension member. 10. A method of sensing a process parameter, said method comprising: channeling a flow of fluid through a first flow passage defined between a first leg and a second parallel leg of an extension member;channeling the flow of fluid through a second flow passage defined between a first airfoil body and a center airfoil body;channeling the flow of fluid through a third flow passage defined between a second airfoil body and the center airfoil body, wherein the first, second, and third flow passages are each substantially parallel to each other;turning the flow of fluid in the second flow passage to facilitate separating the flow of fluid in the second flow passage into a first stream having relatively reduced particulates with respect to a second stream; anddirecting the first stream to a sensing element. 11. A method in accordance with claim 10, further comprising generating an area of relatively high pressure in the second flow passage. 12. A method in accordance with claim 10, further comprising generating an area of relatively low pressure in the third flow passage. 13. A method in accordance with claim 10, further comprising reducing a velocity of the flow of fluid exiting the second flow passage proximate the sensing element. 14. A method in accordance with claim 10, further comprising reducing a velocity of the flow of fluid exiting the second flow passage proximate the sensing element using a sheath surrounding the sensing element. 15. A method in accordance with claim 10, further comprising directing the flow of fluid exiting the second flow passage into an opening in a sheath surrounding the sensing element. 16. A process sensing system comprising: an extension member comprising a first leg and a parallel second leg defining a first flow channel therebetween; anda sensor assembly extending between said first and second legs, said sensor assembly comprising: a center airfoil body and a sensing element positioned downstream of said center airfoil body;a first airfoil body spaced apart from said center airfoil body by a second flow channel, said first airfoil body comprising a concave surface facing said center airfoil body; anda second airfoil body spaced apart from said center airfoil body by a third flow channel, said second airfoil body comprising a convex surface facing said center airfoil body, wherein said first, said second, and said third flow channels are each substantially parallel to each other. 17. A process sensing system in accordance with claim 16, wherein each of said first and second legs include a leading portion that defines a converging V-shaped channel between said first and second leg leading portions. 18. A process sensing system in accordance with claim 16, wherein said first airfoil body and said center airfoil body are configured to separate a flow of fluid through said second flow channel into a first stream having relatively reduced particulates with respect to a second stream. 19. A process sensing system in accordance with claim 18, wherein said sensing element comprises a sheath circumscribing said sensing element, said sheath comprising an upstream opening aligned with said first stream. 20. A process sensing system in accordance with claim 19, wherein said sheath comprises a downstream opening diametrically opposed to said upstream opening.
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