Automated intravenous fluid regulating and administering apparatus
First Claim
1. An intravenous fluid regulator apparatus comprising means for establishing a first signal establishing a desired rate of introduction of drops of intravenous fluid to a patient, means for sensing the volume of said drops of fluid and for producing a second signal bearing a relation to the drop volume, and means coupled to said volume sensing means and to said first-signal establishing means for operatively combining said first and second signals to produce a fluid control signal.
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Abstract
Automated dispensing apparatus is disclosed for administering intravenous fluid to a patient at a controlled volumetric rate such that deviations from the desired fluid volumetric flow rate are automatically corrected. In accordance with the invention, the width and silhouette of each drop of fluid are measured and give rise to representative signals of each such parameter. These signals are then multiplied to obtain a signal proportional to the volume of the drop. This drop volume signal is combined with a rate control signal to modify the latter to reflect deviations in the measured drop volume from a nominal value. The thus modified control signal is compared against the actual rate of drop administration, and any necessary adjustment made in the constriction of a fluid-passing tube. The rate at which intravenous fluid is supplied to the patient is thus maintained at the desired volumetric rate.
73 Citations
11 Claims
- 1. An intravenous fluid regulator apparatus comprising means for establishing a first signal establishing a desired rate of introduction of drops of intravenous fluid to a patient, means for sensing the volume of said drops of fluid and for producing a second signal bearing a relation to the drop volume, and means coupled to said volume sensing means and to said first-signal establishing means for operatively combining said first and second signals to produce a fluid control signal.
- 8. In combination in intravenous fluid regulator apparatus, timing circuit means including a timing capacitor, plural current sources, plural controlled gate means each selectively connecting an associated current source with said timing capacitor, fluid drop sensing means, logic means having plural inputs connected to said fluid drop sensing means and to said timing means and plural outputs each connected to a different one of said controlled gate means for selectively enabling said gate means, wherein said plural current sources include an excess fluid rate current source and a deficient rate current source, said logic means including means for enabling said gate means associated with said excess rate current source responsive to said drop sensing means sensing an early fluid drop and means for enabling said gate means associated with said deficient fluid rate current source responsive to said drop sensing means detecting a late fluid drop rate specifying means for specifying a desired fluid administration rate, means for measuring drop volume and linear summing means connected to said drop volume measuring means and said rate specifying means, said excess and said deficient rate current sources including means for supplying a current depending upon the output of said linear summing means.
Specification
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- Resources
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Current AssigneeAlderson Laboratories Incorporated
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Original AssigneeAlvin J. Marx
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InventorsMarx, Alvin J., Edelman, Abraham
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Primary Examiner(s)Kamm, William E.
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Application NumberUS05/916,836Time in Patent Office505 DaysField of Search128/214 E, 128/DIG. 13US Class Current604/65CPC Class CodesA61M 5/1689 Drip countersG05D 7/0623 characterised by the set va...Y10S 128/13 Infusion monitoring
