Insulin infusion pump

US 4,498,843 A
Filed: 08/02/1982
Issued: 02/12/1985
Est. Priority Date: 08/02/1982
Status: Expired due to Fees

First Claim

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1. A microprocessor controlled peristaltic pump comprising:

a pump having a rotatable pump rotor, and a pump switch means coupled to the pump rotor which alternately opens and closes as the pump rotor rotates;

a motor coupled to and driving the pump rotor;

a reservoir having a cylinder, and a piston which moves into the cylinder as the reservoir is depleted;

a delivery tube connecting the reservoir to the pump, running through the pump, over the rotor, and thence to a delivery site;

a reservoir switch means coupled to the piston which alternately opens and closes as the reservoir is depleted; and

a microprocessor electrically connected to the pump switch means, the reservoir switch means, and the motor such that the microprocessor programmably controls the number of revolutions the pump rotor makes per unit of time in response to signals received from the pump switch and the reservoir switch.

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Abstract

There is disclosed a microprocessor-controlled peristaltic pump for use in a portable continuous insulin infusion device. The peristaltic pump is configured with a removable cover comprising a part of the pump housing surrounding a pump rotor, and holding a delivery tube between the cover and the rotor. The removable cover combines with a reservoir and the delivery tube to constitute a pre-filled disposable package facilitating installation and removal of the insulin in the device. A microprocessor controls the number of times the rotor turns during a cycle. This operation allows the microprocessor to automatically compensate for different diameter delivery tubes, as well as to allow the physician to vary the on/off time of the pump to administer different dosages.

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12 Claims

1. A microprocessor controlled peristaltic pump comprising:
- a pump having a rotatable pump rotor, and a pump switch means coupled to the pump rotor which alternately opens and closes as the pump rotor rotates;
  
  a motor coupled to and driving the pump rotor;
  
  a reservoir having a cylinder, and a piston which moves into the cylinder as the reservoir is depleted;
  
  a delivery tube connecting the reservoir to the pump, running through the pump, over the rotor, and thence to a delivery site;
  
  a reservoir switch means coupled to the piston which alternately opens and closes as the reservoir is depleted; and
  
  a microprocessor electrically connected to the pump switch means, the reservoir switch means, and the motor such that the microprocessor programmably controls the number of revolutions the pump rotor makes per unit of time in response to signals received from the pump switch and the reservoir switch.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. The device of claim 1 wherein the pump switch means comprises:
    - an optical disc coupled to the pump rotor and having alternatingly opaque and transparent radially aligned sectors; and
      
      an optical sensing means adjacent the disc such that as the rotor rotates, the optical sensing means registers the presence of an opaque or transparent sector on the optical disc adjacent the optical sensing means.
  - 3. The device of claim 2 further comprising:
    - a pump shaft extending from the pump rotor;
      
      an annular collar affixed to the optical disc;
      
      andthe collar being mounted on the pump shaft and affixed thereto with a set screw in the collar.
  - 4. The device of claim 2 wherein the optical sensing means comprises:
    - a photodiode on one side of the optical disc;
      
      anda light emitting diode on the opposite side of the optical disc.
  - 5. The device of claim 4 wherein the optical sensing means further comprises:
    - a first light collimating slit interposed between the photodiode and the optical disc; and
      
      a second light collimating slit interposed between the light emitting diode and the optical disc.
  - 6. The device of claim 1 wherein the reservoir switch means comprises:
    - an optical scale attached to and extending out from the piston and having alternating opaque and transparent parallel lines; and
      
      an optical sensing means adjacent the optical scale such that the optical sensing means registers the presence of an opaque or transparent line on the optical scale adjacent the optical sensing means.
  - 7. The device of claim 6 wherein the optical sensing means comprises:
    - a photodiode on one side of the optical scale;
      
      anda light emitting diode on the opposite side of the optical scale.
  - 8. The device of claim 7 wherein the optical sensing means further comprises:
    - a first light collimating slit interposed between the photodiode and the optical scale; and
      
      a second light collimating slit interposed between the light emitting diode and the optical scale.
  - 9. The device of claim 1 further comprising a digital readout connected to the microprocessor.
  - 10. The device of claim 1 further comprising an overpressure sensor means coupled to the delivery tube downstream of the pump rotor and electrically connected to the microprocessor such that an overpressure condition in the delivery tube downstream of the pump rotor causes the overpressure sensor to send a signal to the microprocessor.
  - 11. The device of claim 10 wherein the overpressure means comprises:
    - sensor cylinder having a first end in communication with the delivery tube and a second open end;
      
      a fluid sealed sensor piston in the sensor cylinder; and
      
      a microswitch connected to the microprocessor and adjacent the second end of the sensor cylinder such that when an overpressure condition exists in the delivery tube, the piston is forced out of the cylinder actuating the microswitch.
  - 12. The device of claims 1 and 10 further comprising an audible alarm connected to the microprocessor which may be programmably actuated by the microprocessor.

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Litigation Campaign Assessment

Current Assignee
Philip H. Schneider, Thomas A. Massaro, William J. Weber
Original Assignee
Philip H. Schneider, Thomas A. Massaro, William J. Weber
Inventors
Schneider, Philip H., Weber, William J., Massaro, Thomas A.
Primary Examiner(s)
NOT, DEFINED

Application Number

US06/404,645
Time in Patent Office

925 Days
Field of Search

224/14, 224/63, 604/67, 604/65, 128/DIG. 13, 417/12, 417/22, 417/18, 417/36
US Class Current

417/22
CPC Class Codes

A61M 2205/3306   Optical measuring means

A61M 2205/3365   Rotational speed

A61M 5/14232   Roller pumps

A61M 5/14244   adapted to be carried by th...

F04B 49/065   and making use of computers

F04B 49/20   by changing the driving speed

G01D 5/3473   Circular or rotary encoders

Insulin infusion pump

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Insulin infusion pump

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Abstract

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