Airflow sensor with pitot tube for pressure drop reduction

US 7,654,157 B2
Filed: 11/30/2007
Issued: 02/02/2010
Est. Priority Date: 11/30/2007
Status: Expired due to Fees

First Claim

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1. A flow sensor apparatus for measuring a property related to fluid flow through a flow channel, wherein the cross-sectional size of the flow channel is defined by one or more flow channel inner dimensions, comprising:

a housing having at least a portion that extends into the flow channel, but substantially less than all the way across an inner dimension of the flow channel;

the housing defining a pitot tube with a bypass channel;

the pitot tube having at least two upstream taps spaced apart along said pitot tube and oriented into a direction of fluid flow through said flow channel, the at least two upstream taps collectively functioning as an upstream port for said bypass channel;

the pitot tube further having at least two downstream taps spaced apart along said pitot tube and facing perpendicular or substantially perpendicular to said direction of said fluid flow, the at least two downstream taps collectively functioning as a downstream port for said bypass channel; and

the bypass channel is configured to direct said fluid from said upstream port, to a sensor that is configured to sense a property related to fluid flow through the flow channel, and finally to the at least two downstream taps.

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Abstract

An airflow sensor apparatus for measuring flow rate includes a pitot tube with a bypass channel wherein the pitot tube extends halfway into a flow channel in order to reduce a pressure drop. One or more upstream taps can be spaced along the pitot tube facing into a direction of a flow stream which directs the flow to the bypass channel. At least one or more downstream taps can be located to face perpendicular to the direction of flow, such that the fluid after passing over a flow sensor passes through the downstream tap(s). The upstream tap senses stagnation pressure and the down stream tap senses static pressure which is exerted in all directions in the flow channel in order to determine a velocity pressure based on a difference between pressures.

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19 Claims

1. A flow sensor apparatus for measuring a property related to fluid flow through a flow channel, wherein the cross-sectional size of the flow channel is defined by one or more flow channel inner dimensions, comprising:
- a housing having at least a portion that extends into the flow channel, but substantially less than all the way across an inner dimension of the flow channel;
  
  the housing defining a pitot tube with a bypass channel;
  
  the pitot tube having at least two upstream taps spaced apart along said pitot tube and oriented into a direction of fluid flow through said flow channel, the at least two upstream taps collectively functioning as an upstream port for said bypass channel;
  
  the pitot tube further having at least two downstream taps spaced apart along said pitot tube and facing perpendicular or substantially perpendicular to said direction of said fluid flow, the at least two downstream taps collectively functioning as a downstream port for said bypass channel; and
  
  the bypass channel is configured to direct said fluid from said upstream port, to a sensor that is configured to sense a property related to fluid flow through the flow channel, and finally to the at least two downstream taps.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The flow sensor apparatus of claim 1, wherein said housing further comprises an inlet end and an outlet end that are configured for coupling the flow sensor apparatus to a flow system.
  - 3. The flow sensor apparatus of claim 1, wherein said sensor comprises a MEMS flow sensor with an upstream sensing element, a downstream sensing element and a heating element.
  - 4. The flow sensor apparatus of claim 1 wherein said housing extends about halfway across the inner dimension of the flow channel.
  - 5. The flow sensor apparatus of claim 1 wherein said Pitot tube has a tapered leading edge for reducing turbulence in the flow channel.

6. A flow sensor apparatus, comprising:
- a housing including a wall defining a pitot tube including a bypass channel through which fluid is enabled to flow, said pitot tube defined by said housing and extending into but substantially less than all the way across a width dimension of a flow channel;
  
  at least two upstream taps spaced apart along said pitot tube facing into the direction of a fluid flowing through the flow channel, the at least two upstream taps collectively functioning as an upstream port for said bypass channel;
  
  at least two downstream taps spaced apart along said pitot tube and facing perpendicular or substantially perpendicular to said direction of said fluid flow, the at least two downstream taps collectively functioning as a downstream port for said bypass channel; and
  
  the bypass channel is configured to direct said fluid from said upstream port, to a sensor that is configured to sense a property related to fluid flow through the flow channel, and finally to the two or more downstream taps.
- View Dependent Claims (7, 8, 9, 10)
- - 7. The flow sensor apparatus of claim 6, wherein said housing comprises an inlet end and an outlet end that are configured for coupling the flow sensor apparatus to a flow system.
  - 8. The flow sensor apparatus of claim 6 wherein said sensor comprises a MEMS flow sensor with an upstream sensing element, a downstream sensing element and a heating element.
  - 9. The flow sensor apparatus of claim 6 wherein said housing extends transversely about halfway across the width dimension of said flow channel.
  - 10. The flow sensor apparatus of claim 6 wherein said Pitot tube has a tapered leading edge for reducing turbulence in the flow channel.

11. A flow sensor apparatus, comprising:
- a pitot tube having a bypass channel, said pitot tube extending transversely into but substantially less than all the way across a flow channel with respect to the direction of flow of a fluid within said flow channel;
  
  at least two upstream taps spaced apart along said pitot tube facing into a direction of a fluid flowing through said flow channel, the at least two upstream taps collectively functioning as an upstream port for said bypass channel;
  
  a flow sensor configured to sense the flow of said fluid provided by said upstream port; and
  
  at least one downstream tap spaced apart along said pitot tube and facing perpendicular or substantially perpendicular to said direction of said fluid in order to determine a velocity pressure based on a difference between a pressure identified by said at least two upstream taps and a pressure identified by said at least one downstream tap.
- View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19)
- - 12. The flow sensor apparatus of claim 11 further comprising:
    - a housing that defines said pitot tube with said bypass channel.
  - 13. The flow sensor apparatus of claim 12, wherein said housing further comprises an inlet end and an outlet end that are configured for coupling the flow sensor apparatus to a flow system.
  - 14. The flow sensor apparatus of claim 13, wherein said sensor comprises a MEMS flow sensor with an upstream sensing element, a downstream sensing element and a heating element.
  - 15. The flow sensor apparatus of claim 12 wherein said housing extends about halfway across the flow channel.
  - 16. The flow sensor apparatus of claim 15 wherein said housing has a tapered leading edge for reducing turbulence and pressure drop in the flow channel.
  - 17. The flow sensor apparatus of claim 11, wherein said sensor comprises a MEMS flow sensor with an upstream sensing element, a downstream sensing element and a heating element.
  - 18. The flow sensor apparatus of claim 11 wherein said pitot tube extends about halfway across the flow channel.
  - 19. The flow sensor apparatus of claim 11 wherein said Pitot tube has a tapered leading edge for reducing turbulence and pressure drop in the flow channel.

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Current Assignee
Honeywell International Inc.
Original Assignee
Honeywell International Inc.
Inventors
Speldrich, Jamie W.
Primary Examiner(s)
PATEL, HARSHAD R

Application Number

US11/948,317
Publication Number

US 20090139348A1
Time in Patent Office

795 Days
Field of Search

7386165-86166
US Class Current

73/861.65
CPC Class Codes

G01F 1/46   Pitot tubes

G01F 1/6842   with means for influencing ...

G01F 5/00   Measuring a proportion of t...

Airflow sensor with pitot tube for pressure drop reduction

First Claim

1 Assignment

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Abstract

Citations

19 Claims

Specification

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Airflow sensor with pitot tube for pressure drop reduction

First Claim

1 Assignment

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Accused Products

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Abstract

Citations

19 Claims

Specification

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Solutions

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