Control method and apparatus for peristaltic fluid pump

US 4,715,786 A
Filed: 12/14/1984
Issued: 12/29/1987
Est. Priority Date: 12/14/1984
Status: Expired due to Term

First Claim

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1. A control apparatus for a peristaltic pump having a housing with an internal chamber and a pair of openings communicating with the chamber, a length of tube extending through one opening and out the other and having a portion looped internally in the chamber so as to form a continuous flow passage through the tube, displacement means supported within the chamber and operatively associated with the tube to perform a peristaltic pumping action within the tube by deforming the tube, and a motor to rotate the displacement means and cause the deformation;

said control apparatus comprising;

means for sensing the actual angular velocity of the motor and for generating a motor speed signal indicative of said actual velocity;

means for generating a desired velocity signal;

means for comparing said actual velocity signal and said desired velocity signal and for generating an error signal of one logic level if said actual velocity is greater than said desired velocity and for generating said error signal as another logic level if said desired velocity is greater than said actual velocity;

means for controlling the velocity of said motor in a direction tending to null the difference between said actually velocity and said desired velocity;

programmed microprocessor means for alternatively setting said desired velocity signal to zero or said desired value;

said microprocessor means being responsive to a stored set of instructions and a plurality of switch inputs producing mode commands; and

said switch input including a run switch to turn the motor on, a stop switch to turn the motor off, and a mode switch to determine the operational function of the apparatus;

wherein said operational functions include using the apparatus as an uncalibrated flowmeter, a calibrated flowmeter, or a calibrated dispenser.

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Abstract

A peristaltic pump controller which provides control of a positive displacement pump as either an uncalibrated or calibrated flowmeter, or a calibrated dispenser. A calibration constant is calculated, after the pump is primed, to determine the amount of volume output produced by an increment of angular rotation of the pump. The constant is determined during a calibration operation where an arbitrary calibration volume is metered. The controller has a low flow and high flow mode where the low flow mode provides a higher resolution for dispensing. The flow mode of operation is determined by the value of the calibration constant and is automatically set when the constant is calculated. During a dispensing operation, the controller will meter fluid to within a predetermined amount of the final volume dependent upon the speed of the pump motor and then dribble in the remaining amount of a batch for precision.

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20 Claims

1. A control apparatus for a peristaltic pump having a housing with an internal chamber and a pair of openings communicating with the chamber, a length of tube extending through one opening and out the other and having a portion looped internally in the chamber so as to form a continuous flow passage through the tube, displacement means supported within the chamber and operatively associated with the tube to perform a peristaltic pumping action within the tube by deforming the tube, and a motor to rotate the displacement means and cause the deformation;
- said control apparatus comprising;
  
  means for sensing the actual angular velocity of the motor and for generating a motor speed signal indicative of said actual velocity;
  
  means for generating a desired velocity signal;
  
  means for comparing said actual velocity signal and said desired velocity signal and for generating an error signal of one logic level if said actual velocity is greater than said desired velocity and for generating said error signal as another logic level if said desired velocity is greater than said actual velocity;
  
  means for controlling the velocity of said motor in a direction tending to null the difference between said actually velocity and said desired velocity;
  
  programmed microprocessor means for alternatively setting said desired velocity signal to zero or said desired value;
  
  said microprocessor means being responsive to a stored set of instructions and a plurality of switch inputs producing mode commands; and
  
  said switch input including a run switch to turn the motor on, a stop switch to turn the motor off, and a mode switch to determine the operational function of the apparatus;
  
  wherein said operational functions include using the apparatus as an uncalibrated flowmeter, a calibrated flowmeter, or a calibrated dispenser.
- View Dependent Claims (2, 3, 4, 5)
- - 2. A control apparatus as set forth in claim 1 wherein said switch inputs further include batch switches including:
    - a volume switch describing a predetermined volume for each batch; and
      
      a batch number switch describing the number of batches to be dispensed.
  - 3. A control apparatus as set forth in claim 2 wherein said batch switches further include:
    - interval switches for indicating the length of a pause between the dispensing of each batch.
  - 4. A control apparatus as set forth in claim 3 which further includes:
    - mode control means for automatically switching said apparatus between the functional operations of a flowmeter and a dispenser based upon at least one switch setting of said batch switches.
  - 5. A control apparatus as set forth in claim 4 wherein:
    - said mode control apparatus is responsive to setting a zero volume in said batch volume switches to control said apparatus in a flowmeter functional operation.

6. A control apparatus for a positive displacement pump including a motor which rotates a positive displacement means to pump a determinable amount of fluid for a definable amount of angular rotation, said control apparatus comprising:
- means for generating incremental pulses at a frequency indicative of increments of angular rotation of said motor;
  
  a time base generator for periodically generating time base pulses at a predetermined rate;
  
  means for controlling the speed of the pump head to a desired velocity value from input by an operator; and
  
  programmed microprocessor means for alternatively setting said desired velocity to a zero value or said desired value, said microprocessor means being responsive to a stored set of instructions and a plurality of switch inputs producing mode commands;
  
  said microprocessor means adapted to read said time base pulses and said incremental pulses to determine at least the rotational velocity of said displacement means; and
  
  said microprocessor including mode control means for switching control of said apparatus between different means for generating operational functions, in response to different mode commands from said switch inputs, said function generating means including means for calibrating the fluid flow of said pump to determine the amount of fluid pumped for an increment of angular motor rotation, and means for controlling said apparatus as a calibrated flowmeter.
- View Dependent Claims (7, 8, 9, 10, 11, 12, 13)
- - 7. A control apparatus as defined in claim 6 wherein said batch dispensing controlling means further includes:
    - means for inputting to said microprocessor an interval delay; and
      
      means for delaying said dispensing means for said interval delay between batches.
  - 8. A control apparatus as defined in claim 6 which further includes a means for controlling said pump as a batch dispenser.
  - 9. A control apparatus as defined in claim 6 wherein said calibrating means calculates a calibration constant in units of increments of angular rotation of the motor for a predetermined volume.
  - 10. A control apparatus as defined in claim 9 which further includes:
    - display means for displaying operating parameters of the apparatus; and
      
      means for enabling the display of said calibration constant.
  - 11. A control apparatus as defined in claim 10 which further includes:
    - means for enabling the display of said rotational velocity.
  - 12. A control apparatus defined in claim 9 which further includes:
    - means for calculating the flow rate of said pump from said angular rotation and said time base.
  - 13. A control apparatus as defined in claim 9 which further includes:
    - means for calculating total cumulative volume from said calibration constant and said rotational velocity.

14. A control apparatus for a positive displacement pump including a motor which rotates a positive displacement means to pump a determinable amount of fluid for a definable amount of angular rotation, said control apparatus comprising:
- means for generating incremental pulses at a frequency indicative of increments of angular rotation of said motor;
  
  a time base generator for periodically generating time base pulses at a predetermined rate;
  
  means for controlling the speed of the pump to a desired velocity value from input by an operator; and
  
  programmed microprocessor means for alternatively setting said desired velocity to a zero value of said desired value, said microprocessor means being responsive to a stored set of instructions and a plurality of switch inputs producing mode commands;
  
  said microprocessor means adapted to read said time base pulses and said incremental pulses to determine at least the rotational velocity of said displacement means;
  
  said microprocessor means including means for calibrating the fluid flow of said pump to determine the amount of fluid pumped for an increment of angular motor rotation; and
  
  said microprocessor means also including means for controlling said pump as a batch dispenser having means for inputting to said microprocessor means the number of batches to be dispensed, means for inputting to said microprocessor means the amount in each of said batches to be dispensed, and means for dispensing the number of batches input in the volumes of the amount input comprising means for measuring the amount which has already been dispensed in a batch and for stopping at an intermediate volume before reaching the amount to be dispensed, and means for intermittently turning said motor off and on until the amount to be dispensed is reached.
- View Dependent Claims (15, 16, 17, 18, 19, 20)
- - 15. A control apparatus as defined in claim 14 wherein:
    - said intermediate volume before said amount to be dispensed is variable with respect to an operating parameter of the apparatus.
  - 16. A control apparatus as defined in claim 15 wherein:
    - p1 said operating parameter which said intermediate volume depends on is the angular velocity of said motor.
  - 17. A control apparatus as defined in claim 14 wherein:
    - the amount of time said motor is turned on during intermittent dispensing is variable with respect to an operating parameter of the apparatus.
  - 18. A control apparatus as defined in claim 17 wherein:
    - said operating parameter which said motor on time depends is the amount of fluid pumped for an increment of angular rotation.
  - 19. A control apparatus as defined in claim 14 which further includes:
    - means for starting said motor slowly; and
      
      means for stopping said motor quickly.
  - 20. A control apparatus as defined in claim 19 wherein said stopping means includes:
    - a dynamic brake which places an electrical impedance in parallel with the motor when said control commands the motor to be turned off such that inductive energy contained in the motor is shunted to ground.

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Current Assignee
Cole-Parmer Instrument Company (Thermo Fisher Scientific Incorporated)
Original Assignee
Cole-Parmer Instrument Company (Thermo Fisher Scientific Incorporated)
Inventors
Takacs, Gyoergy J., Stiefel, Paul, Adams, Roman A., Wolff, Donald L., McCauley, Porter T.
Primary Examiner(s)
Lall, Parshotam S.

Application Number

US06/682,031
Time in Patent Office

1,110 Days
Field of Search

364/510, 417/22, 417/42, 417/45, 417/53, 417/477, 73/863.01, 604/65, 604/67, 604/153
US Class Current

417/22
CPC Class Codes

F04B 43/1253 by using two or more roller...

G05D 7/0676 by action on flow sources G...

Control method and apparatus for peristaltic fluid pump

First Claim

4 Assignments

0 Petitions

Accused Products

Abstract

96 Citations

20 Claims

Specification

Solutions

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Control method and apparatus for peristaltic fluid pump

First Claim

4 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

96 Citations

20 Claims

Specification

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Solutions

Use Cases

Quick Links