Multi-sensor mass flow meter along with method for accomplishing same
First Claim
1. A device for use in a mass flow rate metering system which incorporates a flow medium traveling along a flow path towards a destination, wherein the destination utilizes the flow medium, said device comprising:
- (a) a flow conduit insertable into at least a portion of the flow path to define a flow channel, said flow conduit having an inlet and an outlet, said outlet including a coupler for establishing fluid communication between the flow conduit and the destination;
(b) at least one mark depositor operatively connectable to a signal generator to introduce at least one mark into the flow channel at an introduction location and thereby cause a variation in the flow medium; and
(c) a plurality of mark detection sensors each comprising at least one electrode having an associated detection portion disposed in the flow channel in direct contact with said flow medium, each sensor configured to detect variations in the flow medium caused by introduction of said at least one mark.
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Accused Products
Abstract
A device for measuring fluid flow rates over a wide range of flow rates. The invention is particularly adapted for use in micro-fluidic systems including fluids administration to a body of a patient. The device operates by producing characteristics variations in the fluid, or pulses, that are subsequently sensed by more than one detector spaced apart from the point of creation of the mark to derive a flow rate. Each pulse comprises a small fluid volume, whose characteristics are different from the mean characteristics of the fluid, such as by composition variations created by electrochemical means, such as by electrolysis of a solvent, electrolysis of a dissolved species, or electrodialysis of a dissolved ionic species, or a thermal variation created by focused electromagnetic radiation. The device comprises at least two detectors (also sometimes referred to as sensors) to improve the accuracy of the measurement in varying flow rates, to compensate for errors resulting from the drift of the pulses in the fluid, to compensate for varying or unstable flow rates, and to establish a positive signal for sub-range flow. A method of measuring fluid flow rate is proposed where measurements comprising data of one mark from at least two sensor readings plus one other time event are combined to determine the reported flow rate.
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Citations
29 Claims
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1. A device for use in a mass flow rate metering system which incorporates a flow medium traveling along a flow path towards a destination, wherein the destination utilizes the flow medium, said device comprising:
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(a) a flow conduit insertable into at least a portion of the flow path to define a flow channel, said flow conduit having an inlet and an outlet, said outlet including a coupler for establishing fluid communication between the flow conduit and the destination; (b) at least one mark depositor operatively connectable to a signal generator to introduce at least one mark into the flow channel at an introduction location and thereby cause a variation in the flow medium; and (c) a plurality of mark detection sensors each comprising at least one electrode having an associated detection portion disposed in the flow channel in direct contact with said flow medium, each sensor configured to detect variations in the flow medium caused by introduction of said at least one mark. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A device for use in a mass flow metering system to detect zero or sub-range flow, comprising:
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(a) a flow conduit containing a flow medium and defining a flow channel; (b) at least one mark depositor operatively connectable to a signal generator to introduce at least one mark into the flow channel at an introduction location, and; (c) a plurality of sensors each disposed along the flow conduit and configured to detect said mark in the flow medium, at least one of said sensors situated downstream from the introduction location for use in detecting the mark as it travels in a downstream direction, and at least another one of said sensors situated elsewhere along the flow conduit for use in detecting diffusion and convection of the mark. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21)
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22. A method of deriving flow rate of a flow medium within a flow conduit, comprising:
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(a) depositing a mark into the flow conduit at an introduction location; (b) taking, with a plurality of sensors that are spaced apart from one another along the flow conduit, a plurality of time-of-flight (TOF) readings after introduction of the mark into the flow conduit, wherein one of said sensors is situated downstream of the introduction location, and at least another of said sensors is disposed along the flow conduit at a position which is not downstream of the introduction location, and whereby TOF readings by the non-downstream sensor are used to derive at least one of a mark diffusion rate, diffusion correction factor, zero flow, and sub-range flow; and (c) ascertaining flow rate of the flow medium based on said plurality of TOF readings. - View Dependent Claims (23)
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24. A method for use in detecting zero or sub-range flow rate of a flow medium moving within a flow conduit in a flow direction, comprising:
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(a) introducing a mark into the flow conduit at an introduction location; (b) taking at least a first time of flight (TOF) reading from a first sensor having an associated first detection portion situated along the flow conduit; (c) taking at least a second TOF reading from a second sensor having an associated second detection portion that is spaced apart along the flow direction from the first detection portion, said second TOF reading corresponding to diffusion and convection of the mark; and (d) ascertaining an existence or non-existence of zero or sub-range flow based on said first and second TOF readings. - View Dependent Claims (25)
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26. A method for use in detecting zero or sub-range flow rate of a flow medium moving within a flow conduit in a flow direction, comprising:
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(a) introducing a mark into the flow conduit at an introduction location; (b) taking at least one (TOF) reading from a sensor having an associated detection portion situated along the flow conduit; and (c) ascertaining an existence or non-existence of zero or sub-range flow based on said at least one TOF reading and a known diffusion rate of the mark within the flow conduit. - View Dependent Claims (27)
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28. A method of deriving flow rate of a flow medium within a flow conduit, comprising:
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(a) depositing a mark into the flow conduit at an introduction location; (b) taking a plurality of time-of-flight (TOF) readings after introduction of the mark into the flow conduit, including; taking at least a first TOF reading with a first sensor that is situated downstream of the introduction location, said first TOF reading corresponding to travel of the mark in a downstream direction; and taking at least a second TOF reading with a second sensor that is situated upstream of the introduction location, said second TOF reading corresponding to diffusion and convection of the mark in the flow conduit; and (c) ascertaining flow rate of the flow medium based on said plurality of TOF readings. - View Dependent Claims (29)
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Specification