The present disclosure relates generally to flow sensors, and more particularly, to methods and devices for reducing variations in fluid flow across the flow sensor for increased accuracy and/or reliability. In one illustrative embodiment, a flow sensor assembly includes a housing with an inlet flow
The present disclosure relates generally to flow sensors, and more particularly, to methods and devices for reducing variations in fluid flow across the flow sensor for increased accuracy and/or reliability. In one illustrative embodiment, a flow sensor assembly includes a housing with an inlet flow port and an outlet flow port. The housing defines a fluid channel extending between the inlet flow port and the outlet flow port, with a flow sensor positioned in the housing and exposed to the fluid channel. The flow sensor is configured to sense a measure related to the flow rate of a fluid flowing through the fluid channel. A porous insert is situated in the fluid channel, sometimes upstream of the flow sensor. When so configured, and during operation of the flow sensor assembly, a fluid may pass through the inlet flow port, through the porous insert, across the flow sensor, and through the outlet flow port. The porous insert may include pores that are configured to reduce the turbulence in the fluid passing the flow sensor.
대표청구항▼
1. A flow sensor assembly, comprising: a housing including an inlet flow port and an outlet flow port, the housing defining a fluid channel extending between the inlet flow port and the outlet flow port;a flow sensor positioned in the housing and exposed to the fluid channel, the flow sensor configu
1. A flow sensor assembly, comprising: a housing including an inlet flow port and an outlet flow port, the housing defining a fluid channel extending between the inlet flow port and the outlet flow port;a flow sensor positioned in the housing and exposed to the fluid channel, the flow sensor configured to sense a measure related to a flow rate of a fluid flowing through the fluid channel; andan upstream porous foam insert situated in the fluid channel of the housing upstream of the flow sensor, wherein the upstream porous foam insert includes a polymer material having pores distributed therein to form a plurality of circuitous paths through the upstream porous foam insert, wherein during operation of the flow sensor assembly, a fluid passes through the inlet flow port, through the upstream porous foam insert, across the flow sensor, and through the outlet flow port, wherein the plurality of circuitous paths through the upstream porous foam insert are configured to enhance a laminar flow profile of the fluid across the flow sensor. 2. The flow sensor assembly of claim 1, wherein the flow sensor includes a heater element, a first sensing element positioned upstream of the heating element, and a second sensing element positioned downstream of the heating element. 3. The flow sensor assembly of claim 1, wherein the flow sensor is a pressure based flow sensor. 4. The flow sensor assembly of claim 1, wherein the upstream porous foam insert is configured to provide a predetermined pressure drop through the flow channel at a given flow rate. 5. The flow sensor assembly of claim 1 further comprising a downstream porous foam insert situated in the fluid channel of the housing downstream of the flow sensor, wherein the downstream porous foam insert includes a polymer material. 6. The flow sensor assembly of claim 5, wherein the upstream porous foam insert is positioned adjacent the inlet flow port and the downstream porous foam insert is positioned adjacent the outlet flow port. 7. A flow sensor assembly, comprising: a housing including an inlet flow port and an outlet flow port, the housing defining a fluid channel extending between the inlet flow port and the outlet flow port;a flow sensor situated in the housing and exposed to the fluid channel, the flow sensor configured to sense a measure related to a flow rate of a fluid flowing through the fluid channel;an upstream porous polymer foam insert situated in the fluid channel of the housing upstream of the flow sensor;a downstream porous polymer foam insert situated in the fluid channel of the housing downstream of the flow sensor; andwherein during operation of the flow sensor assembly, a fluid passes through the inlet flow port, through the upstream porous polymer foam insert, across the flow sensor, through the downstream porous polymer foam insert, and through the outlet flow port, the upstream porous polymer foam insert including a plurality of pores distributed to form a plurality of circuitous paths through the upstream porous polymer foam insert and are configured to enhance a laminar flow profile of the fluid across the flow sensor. 8. The flow sensor assembly of claim 7, wherein the upstream porous polymer foam insert and the downstream porous polymer foam insert cause a predetermined pressure drop across the fluid channel at a given flow rate. 9. The flow sensor assembly of claim 7, wherein the flow sensor includes a heater element and one or more sensors elements each exposed to the fluid in the fluid channel. 10. The flow sensor assembly of claim 7, wherein the flow sensor is a pressure based flow sensor. 11. A method of reducing variations in a fluid flow through a flow sensor, the method comprising: providing a flow sensor assembly, the flow sensor assembly including: a housing including a first flow port and a second flow port, the housing defining a fluid channel extending between the first flow port and the second flow port;a flow sensor exposed to the fluid channel, the flow sensor configured to detect a measure related a flow rate of a fluid flowing through the fluid channel;inserting a first foam insert into the fluid channel upstream of the flow sensor, the first foam insert including a plurality of pores that are distributed to form a plurality of circuitous paths through the first insert and sized to reduce variations in a fluid flow profile across the flow sensor. 12. The method of claim 11, further comprising inserting a second foam insert into the fluid channel downstream of the flow sensor. 13. The method of claim 12, wherein the first foam insert and the second foam insert produce a predetermined pressure drop between the first flow port and the second flow port at a given fluid flow rate.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (161)
Tobia Ronald L., Adaptive control system for a medical ventilator.
Emmert, Jr.,Charles G.; Emmert,Dan H.; Fizell,Edward R.; Knieper,Christopher H., Air flow measurement system having reduced sensitivity to flow field changes.
Maus Steven M. (16220 Territorial Rd. Osseo MN 55369) Galic George J. (5140 St. Moritz Dr. ; NE. Columbia Heights MN 55421), Apparatus for injection molding articles.
Hayes William F. (Ottawa CA) Tanney John W. (Ottawa CA) Tucker Helen G. (Orleans CA), Apparatus for measuring the flow rate and/or viscous characteristics of fluids.
Bey,Paul P.; Dmytriw,Anthony M.; Blumhoff,Christopher M.; Becke,Craig S.; Speldrich,Jamie W.; Gehman,Richard W., Combi-sensor for measuring multiple measurands in a common package.
Renninger, Erhard; Lenzing, Thomas; Fischer, Manfred; Konzelmann, Uwe; Sippel, Markus, Device for determining at least one parameter of a medium flowing in a conduit.
Cohen, Adam J.; Tang, Josh E.; Thibodeau, Thomas R., Fluid velocity sensor with heated element kept at a differential temperature above the temperature of a fluid.
Merilinen Pekka T. (Helsinki FIX) Eskelinen Kari (Helsinki FIX) Hnninen Hannu E. (Helsinki FIX), Gas flow restricting and directing device intended for flow measurement.
Hecht Hans (Korntal DEX) Kienzle Wolfgang (Hemmingen DEX) Sauer Rudolf (Benningen DEX) Reihlen Eckart (Reutlingen DEX) Weiblen Kurt (Metzingen DEX), Mass flow sensor.
Woodring, Paul L.; Kimm, Gardner J.; Stephenson, Robert L.; Rogers, David R.; Novkov, Donald J.; Mabry, Rebecca A.; Harrington, Steve, Medical ventilator.
Bey, Jr., Paul P.; Becke, Craig S.; Speldrich, Jamie W.; Blumhoff, Christopher M., Packaging multiple measurands into a combinational sensor system using elastomeric seals.
Kunz, Rainer; Kullik, Götz; Engel, Dieter; Leyer, Thomas, Respiratory flow sensor with flow channel having a measuring transducer and air resistance body.
Gehman, Richard William; Blumhoff, Christopher Michael; Speldrich, Jamie Wandler, SYSTEM FOR SENSING THE MOTION OR PRESSURE OF A FLUID, THE SYSTEM HAVING DIMENSIONS LESS THAN 1.5 INCHES, A METAL LEAD FRAME WITH A COEFFICIENT OF THERMAL EXPANSION THAT IS LESS THAN THAT OF THE BODY,.
Brammer Hartmut,DEX ; Kuhrau Joachim,DEX ; Schuster Otto,DEX ; Schieferle Walter,DEX ; Rose Anita,DEX ; Kuenzl Bernd,DEX ; Bundschuh Hermann,DEX ; Biederwolf Herbert,DEX, Temperature sensor for measuring a flow medium in a flow conduit of an internal combustion engine.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.