Portable infusion monitor
First Claim
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1. A device for monitoring the volumetric flow rate of an infusion liquid flowing through an IV set comprising, in combination:
- a housing;
means for detachably mounting said housing onto a drip chamber forming part of said IV set;
means for detecting each drop of liquid falling through said drip chamber;
a clock in said housing;
a pulse counter in said housing coupled to said detecting means for counting the number of pulses produced by said clock between successive drops falling through said drip chamber;
means coupled to said pulse counter for calculating the rate at which each drop falls through said drip chamber and for producing a signal corresponding thereto;
a variable potentiometer in said housing;
means external to said housing for manually setting said potentiometer and for generating an input signal representing the drop volume;
means coupled to said variable potentiometer for combining said input signal and said drop rate signal and for producing an output signal representing the volumetric flow rate of liquid flowing through said IV set; and
means for visually displaying said output signal.
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Abstract
A portable, self contained, infusion monitor is disclosed which can be easily and quickly attached to the drip chamber of an IV set. The monitor detects each drop of liquid falling through the drip chamber and calculates the volumetric flow rate of liquid passing through the IV set. A display for visually recording the flow rate is provided on the monitor along with an adjustable control member for calibrating the monitor for use with any IV set employing tubing having any drop factor.
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Citations
12 Claims
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1. A device for monitoring the volumetric flow rate of an infusion liquid flowing through an IV set comprising, in combination:
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a housing; means for detachably mounting said housing onto a drip chamber forming part of said IV set; means for detecting each drop of liquid falling through said drip chamber; a clock in said housing; a pulse counter in said housing coupled to said detecting means for counting the number of pulses produced by said clock between successive drops falling through said drip chamber; means coupled to said pulse counter for calculating the rate at which each drop falls through said drip chamber and for producing a signal corresponding thereto; a variable potentiometer in said housing; means external to said housing for manually setting said potentiometer and for generating an input signal representing the drop volume; means coupled to said variable potentiometer for combining said input signal and said drop rate signal and for producing an output signal representing the volumetric flow rate of liquid flowing through said IV set; and
means for visually displaying said output signal.
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2. A device for monitoring the volumetric flow rate of an infusion liquid flowing through an IV set comprising, in combination:
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a housing; means for detachably mounting said housing onto a drip chamber forming part of said IV set; means for detecting each drop of liquid falling through said drip chamber; a clock in said housing; a pulse counter in said housing coupled to said detecting means for counting the number of pulses produced by said clock between successive drops falling through said drip chamber; a first divider coupled to said pulse counter for calculating the rate at which each drop falls through said drip chamber and for producing a signal corresponding thereto; a variable potentiometer in said housing; means external to said housing for manually setting said potentiometer and for generating an input signal representing the drop volume; a second divider coupled to said input signal generating means for combining said input signal and said drop rate signal and for producing an output signal representing the volumetric flow rate of liquid flowing through said IV set; and
means for visually displaying said output signal.
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3. A device for monitoring the volumetric flow rate of an infusion liquid flowing through an IV set comprising, in combination:
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a housing; means for detachably mounting said housing onto a drip chamber forming part of said IV set; a light source for passing a beam of light through said drip chamber; a photoelectric cell for detecting drops of liquid which fall through said drip chamber and interrupt said beam of light; a clock in said housing; a pulse counter in said housing coupled to said photoelectric cell for counting the number of pulses produced by said clock between successive drops falling through said drip chamber; a first divider coupled to said pulse counter for calculating the rate at which each drop falls through said chamber and for producing a signal corresponding thereto; a variable potentiometer; means external to said housing for manually setting said potentiometer and producing an input signal representing the drop volume; a second divider coupled to said variable potentiometer for combining said input signal and said drop rate signal and for producing an output signal representing the volumetric flow rate of liquid flowing through said IV set; and means for visually displaying said output signal. - View Dependent Claims (4, 5, 6, 7, 8, 9)
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10. A device for monitoring the volumetric flow rate of an infusion liquid flowing through an IV set comprising, in combination:
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a housing having a surface portion adapted to contact one side of a drip chamber forming part of said IV set; a movable member mounted within said housing; biasing means for urging said movable member into contact with an opposite side of said drip chamber; a light source mounted in said member for passing a beam of light through said drip chamber; a photoelectric cell mounted in said surface portion of said housing for detecting drops of liquid which fall through said drip chamber and interrupt said light beam; a clock in said housing; a pulse counter in said housing coupled to said photoelectric cell for counting the number of pulses produced by said clock between successive drops falling through said drip chamber; a first divider coupled to said pulse counter for calculating the rate at which each drop falls through said chamber and for producing a signal corresponding thereto; a variable potentiometer; means external to said housing for manually setting said potentiometer and producing an input signal representing the drop volume; a multiplier connected to said first divider for converting said drop rate to a higher;
order of time;a second divider having a first input connected to said multiplier and a second input connected to said potentiometer for operatively converting said drop rate to volumetric flow rate of liquid flowing through said IV set; and
means for visually displaying said output signal. - View Dependent Claims (11)
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12. In an IV set including a container for storing an infusion liquid, a drip chamber, a first tube connecting said storage container and said drip chamber and a second tube connecting said drip chamber to an insertion device for introducing said liquid into a human subject, said first tube having a drop factor characterized in that said first tube produces a predetermined number of drops per unit volume when connected to said drip chamber;
- the combination therewith of a monitor for determining the volumetric flow of liquid passing through said IV set, said monitor comprising, in combination;
a housing; means for detachably mounting said housing onto said drip chamber; a light source for passing a beam of light through said drip chamber; a photoelectric cell for detecting drops of liquid which fall through said drip chamber and interrupt said beam of light; a clock in said housing; a pulse counter in said housing coupled to said photoelectric cell for counting the number of pulses produced by said clock between successive drops falling through said drip chamber; a first divider coupled to said pulse counter for calculating the rate at which each drop falls through said chamber and for producing a signal corresponding thereto; a variable potentiometer; a slide control connected to said potentiometer, said slide control being movable within a slot in said housing; a scale positioned along side said slot, said scale containing markings corresponding to different values of said drop factor whereby said potentiometer may be manually set to produce an input signal representing said drop factor; a second divider coupled to said variable potentiometer for combining said input signal and said drop rate signal and for producing an output signal representing the volumetric flow rate of liquid flowing through said IV set; and means for visually displaying said output signal.
- the combination therewith of a monitor for determining the volumetric flow of liquid passing through said IV set, said monitor comprising, in combination;
Specification