Device for sensing the volmetric flow rate of air in a duct
First Claim
1. A sensor for producing a differential pressure signal which varies as a function of the volumetric flow rate of air through a duct system having interconnected upstream and downstream duct sections extending at an angle to one another whereby air flows into the upstream end portion of the downstream duct section in an asymmetrical pattern, said sensor being located in the upstream end portion of said downstream duct section and comprising an array of at least three angularly spaced and radially extending arms, each of said arms comprising an upstream sensing tube and further comprising a downstream sensing tube alined angularly with and extending parallel to said upstream sensing tube, a series of ports spaced axially along and formed through each sensing tube, the ports in each upstream sensing tube being formed through the upstream side thereof whereby a high pressure signal is transmitted through such ports and to each upstream tube, the ports in each downstream tube being formed through the downstream side thereof whereby a low pressure signal is transmitted through such ports and to each downstream tube, means defining a first averaging chamber located at the inner ends of and communicating with said upstream tubes whereby the high pressure signals transmitted to such tubes are averaged within said chamber thereby to create an averaged high pressure signal, means defining a second averaging chamber located at and communicating with the inner ends of said downstream tubes whereby the low pressure signals transmitted to the downstream tubes are averaged within said second chamber thereby to create an averaged low pressure signal, and means for conducting the averaged high and low pressure signals from said first and second averaging chambers, respectively.
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Accused Products
Abstract
A sensor in an air conditioning duct produces a differential pressure signal which varies as a function of the volumetric flow rate of air through the duct. The sensor includes an array of angularly spaced and radially extending arms disposed around and across the duct and each having upstream and downstream sensing tubes formed with ports spaced along their upstream and downstream sides, respectively. Pressure signals are transmitted to the tubes by way of the ports and are averaged by high and low pressure averaging chambers located at the center of the sensor and communicating with the upstream and downstream sensing tubes, respectively. The output signals from the averaging chambers constitute a differential pressure signal which is highly representative of the volumetric flow rate of the air even though the air flows through the duct in an asymmetrical pattern.
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Citations
11 Claims
- 1. A sensor for producing a differential pressure signal which varies as a function of the volumetric flow rate of air through a duct system having interconnected upstream and downstream duct sections extending at an angle to one another whereby air flows into the upstream end portion of the downstream duct section in an asymmetrical pattern, said sensor being located in the upstream end portion of said downstream duct section and comprising an array of at least three angularly spaced and radially extending arms, each of said arms comprising an upstream sensing tube and further comprising a downstream sensing tube alined angularly with and extending parallel to said upstream sensing tube, a series of ports spaced axially along and formed through each sensing tube, the ports in each upstream sensing tube being formed through the upstream side thereof whereby a high pressure signal is transmitted through such ports and to each upstream tube, the ports in each downstream tube being formed through the downstream side thereof whereby a low pressure signal is transmitted through such ports and to each downstream tube, means defining a first averaging chamber located at the inner ends of and communicating with said upstream tubes whereby the high pressure signals transmitted to such tubes are averaged within said chamber thereby to create an averaged high pressure signal, means defining a second averaging chamber located at and communicating with the inner ends of said downstream tubes whereby the low pressure signals transmitted to the downstream tubes are averaged within said second chamber thereby to create an averaged low pressure signal, and means for conducting the averaged high and low pressure signals from said first and second averaging chambers, respectively.
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11. A sensor for producing a differential pressure signal which varies as a function of the volumetric flow rate of air through a duct system having interconnected upstream and downstream duct sections extending at an angle to one another whereby air flows into the upstream end portion of the downstream duct section in an asymmetrical pattern, said sensor being located in the upstream end portion of said downstream duct section and comprising an array of at least three angularly spaced and radially extending arms, each of said arms comprising an upstream sensing tube and further comprising a downstream sensing tube alined angularly with and extending parallel to said upstream sensing tube, a blade located between and extending along the upstream and downstream tubes of each of said arms, each of said blades being disposed in a plane extending perpendicular to the direction of air flow and having side edges which project beyond the sides of said tubes whereby air flowing past each upstream tube is deflected by the associated blade and flows across the side edges thereof before flowing past the associated downstream tube, a series of ports spaced axially along and formed through each sensing tube, the ports in each upstream sensing tube being formed through the upstream side thereof whereby a high pressure signal is transmitted through such ports and into each upstream tube, the ports in each downstream tube being formed through the downstream side thereof whereby a low pressure signal is transmitted through such ports and into each downstream tube an upstream hub receiving the inner ends of said upstream tubes and having a hollow interior defining a first averaging chamber communicating with said upstream tubes whereby the high pressure signals transmitted to such tubes are averaged within said chamber thereby to create an averaged high pressure signal, a downstream hub receiving the inner ends of said downstream tubes and having a hollow interior defining a second averaging chamber communicating with the inner ends of said downstream tubes whereby the low pressure signals transmitted to the downstream tubes are averaged within said second chamber thereby to create an averaged low pressure signal, and means for conducting the averaged high and low pressure signals from said first and second averaging chambers, respectively.
Specification