Control system and method for AC motor driven cyclic load

US 4,971,522 A
Filed: 05/11/1989
Issued: 11/20/1990
Est. Priority Date: 05/11/1989
Status: Expired due to Fees

First Claim

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1. A control system for an AC motor driven cyclic load, the AC motor having a rotor driven by a magnetic field, the system comprising:

a flywheel, rotatably connectable between the motor and the cyclic load, for receiving and storing rotational kinetic energy from the motor and the load, and for delivering rotational kinetic energy to the load;

transducer means for generating a transducer signal which is a function of the cycle speed of the cyclic load;

tachometer means for generating a tachometer signal which is a function of the speed of rotation of the motor'"'"'s rotor;

outside set point means for generating an outside set point signal representative of a desired set point cycle speed of the cyclic load;

controller means for receiving and processing the transducer signal, the tachometer signal, and the outside set point signal to generate a control signal representative of the adjustment to the power supply frequency needed to achieve the set point cycle speed; and

variable frequency power supply means, having a power input connectable to an AC power source and a power output connectable to the motor, for receiving and processing the control signal to adjust the frequency of the power supplied to the AC motor and thereby achieve the set point cycle speed of the cyclic load.

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Abstract

A control system for an AC motor driven cyclic load, such as a beam pumping unit, includes a flywheel, transducer, tachometer, outside set point source, controller, and variable frequency power supply. The flywheel is rotatably connected between the motor and the cyclic load for receiving and storing rotational kinetic energy from the motor and the load during portions of a cycle of the cyclic load when there is excess energy and returning the stored rotational kinetic energy to drive the cyclic load during portions of a cycle when there is an energy demand by the cyclic load. The transducer generates a transducer signal which is a function of the cycle speed. The tachometer means generates a tachometer signal which is a function of the speed of rotation of the motor'"'"'s rotor. The outside set point source generates an outside set point signal representative of a desired set point cycle speed of the cyclic load. The controller receives the transducer signal, the tachometer signal and the outside set point signal and generates a control signal representative of the adjustment to the power supply frequency of the motor needed to achieve the set point cycle speed. The variable frequency power supply receives the control signal and adjusts the frequency of the power supplied to the motor accordingly.

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21 Claims

1. A control system for an AC motor driven cyclic load, the AC motor having a rotor driven by a magnetic field, the system comprising:
- a flywheel, rotatably connectable between the motor and the cyclic load, for receiving and storing rotational kinetic energy from the motor and the load, and for delivering rotational kinetic energy to the load;
  
  transducer means for generating a transducer signal which is a function of the cycle speed of the cyclic load;
  
  tachometer means for generating a tachometer signal which is a function of the speed of rotation of the motor'"'"'s rotor;
  
  outside set point means for generating an outside set point signal representative of a desired set point cycle speed of the cyclic load;
  
  controller means for receiving and processing the transducer signal, the tachometer signal, and the outside set point signal to generate a control signal representative of the adjustment to the power supply frequency needed to achieve the set point cycle speed; and
  
  variable frequency power supply means, having a power input connectable to an AC power source and a power output connectable to the motor, for receiving and processing the control signal to adjust the frequency of the power supplied to the AC motor and thereby achieve the set point cycle speed of the cyclic load.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 14)
- - 2. The system of claim 1:
    - wherein the flywheel is further defined as receiving and storing rotational kinetic energy from the motor and the cyclic load during portions of a cycle of the cyclic load when there is excess energy and returning the stored rotational kinetic energy to drive the cyclic load during portions of a cycle when there is an energy demand by the cyclic load.
  - 3. The system of claim 1:
    - wherein the cyclic load has subcycle speed and loading oscillations.
  - 4. The system of claim 3:
    - wherein the flywheel is further defined as having a sufficiently large moment of inertia to control the subcycle oscillations.
  - 5. The system of claim 4 in which the cyclic load comprises:
    - a pumping unit, driven by the AC motor, which includes;
      
      a down-hole underground pump; and
      
      a rod string, connected between the pumping unit and the down-hole pump, for actuating the down-hole pump.
  - 6. The system of claim 1, comprising:
    - frequency signal means for generating a frequency signal which is a function of the AC power frequency output by the variable frequency power supply means; and
      
      wherein the controller means receives and compares the frequency signal to the tachometer signal for determining the difference between the speed of rotation of the motor'"'"'s magnetic field and the speed of rotation of the motor'"'"'s rotor.
  - 7. The system of claim 1 in which the controller means comprises:
    - speed controller means for receiving and comparing the transducer signal and the outside set point signal and generating a speed set point signal representative of an adjustment in the cycle speed needed to achieve the set point cycle speed of the cyclic load; and
      
      frequency controller means for receiving and comparing the tachometer signal and the speed set point signal and generating the control signal representative of the adjustment in the power supply frequency necessary to create the difference between the speed of rotation of the motor'"'"'s magnetic field and the speed of rotation of the motor'"'"'s rotor, and thereby the motor output torque, needed to achieve the set point cycle speed of the cyclic load.
  - 8. The system of claim 7 in which the speed controller means comprises:
    - integrating means for delaying the response of the speed controller means to changes in the cycle speed of the cyclic load.
  - 9. The system of claim 1 in which the controller means comprises:
    - speed controller means for receiving and comparing the transducer signal and the outside set point signal and generating a speed control signal representative of the adjustment in the output torque of the AC motor needed to achieve the set point cycle speed of the cyclic load;
      
      slip set point means for generating a slip set point signal representative of a desired set point difference between the speed of rotation of the motor'"'"'s magnetic field and the speed of rotation of the motor'"'"'s rotor;
      
      frequency controller means for receiving and comparing the tachometer signal and the slip set point signal and generating the control signal representative of the adjustment in the power supply frequency output to the motor needed to achieve the desired set point difference between the speed of rotation of the magnetic field and the speed of rotation of the rotor; and
      
      in which the variable frequency power supply means further comprises;
      
      means for receiving the speed control signal and varying the voltage output per unit of frequency to the AC motor in order to adjust the output torque of the AC motor and thereby the cycle speed of the cyclic load.
  - 10. The system of claim 9 in which the speed controller means comprises:
    - integrating means for delaying the response of the speed controller means to changes in the cycle speed of the cyclic load.
  - 11. The system of claim 1:
    - wherein the controller means is further defined as generating a control signal indicative of the power supply frequency output to the motor needed to create a positive difference between the speed of rotation of the motor'"'"'s magnetic field and the speed of rotation of the motor'"'"'s rotor so that the magnetic field rotates at a greater speed than the rotor regardless of the magnitude of the cyclic load.
  - 14. The method of claim 3 in which the storing and returning steps further comprise:
    - using the rotational inertia of the rotating mass to control subcycle oscillations of the cyclic load.

12. A method of controlling an AC motor driven cyclic load in which the AC motor has a rotor driven by a rotating magnetic field, comprising:
- controlling the cycle speed of the cyclic load by adjusting the frequency of the electric power supplied to the motor in order to maintain a difference between the speed of rotation of the magnetic field and the speed of rotation of the rotor, the controlling step further comprising;
  
  generating a transducer signal which is a function of the cycle speed of the cyclic load;
  
  generating a tachometer signal which is a function of the speed of rotation of the motor'"'"'s rotor;
  
  generating an outside set point signal representative of a desired set point cycle speed of the cyclic load;
  
  generating a control signal adapted to maintain the cycle speed of the load at the set point cycle speed by comparing the difference in the transducer signal and tachometer signal to the outside set point signal; and
  
  using the control signal to adjust the frequency of the electric power supplied to the motor;
  
  storing rotational kinetic energy provided by the motor and load on a rotating mass having a relatively large moment of inertia during portions of a cycle of the cyclic load when there is excess energy; and
  
  returning the stored rotational kinetic energy to drive the cyclic load during portions of a cycle of the cyclic load when there is an energy demand by the cyclic load.
- View Dependent Claims (13, 15, 16)
- - 13. The method of claim 12 in which the controlling step further comprises:
    - maintaining a relatively constant torque output during a cycle of the cyclic load by adjusting the frequency of the electric power supplied to the motor to maintain the torque output by the motor.
  - 15. The method of claim 12 in which the controlling step further comprises:
    - adjusting the frequency of the electric power supplied to the motor to maintain a substantially constant preselected difference in the speed of the rotation of the magnetic field and the speed of rotation of the rotor during a cycle of the loading cycle; and
      
      adjusting the voltage output per unit of frequency supplied to the motor in order to adjust the torque output by the motor and thereby control the cycle speed of the cyclic load.
  - 16. The method of claim 12:
    - wherein the controlling step is further defined as adjusting the frequency of the electric power supplied to the motor to create a positive difference between the speed of rotation of the motor'"'"'s magnetic field and the speed of rotation of the motor'"'"'s rotor so that the magnetic field rotates at a greater speed than the rotor regardless of the magnitude of the cyclic load.

17. A control system for an AC motor driven cyclic load, the AC motor having a rotor driven by a magnetic field, the cyclic load having subcycle speed and loading oscillations, the system comprising:
- a flywheel, rotatably connectable between the motor and the load, for receiving and storing rotational kinetic energy from the motor and the load during portions of a cycle of the cyclic load when there is excess energy and for delivering rotational kinetic energy to drive the load during portions of a cycle when there is energy demand by the cyclic load, the flywheel having a sufficiently large moment of inertia to control subcycle speed variations of the cyclic load;
  
  transducer means for generating a transducer signal which is a function of the cycle speed of the cyclic load;
  
  tachometer means for generating a tachometer signal which is a function of the speed of rotation of the motor'"'"'s rotor;
  
  outside set point means for generating an outside set point signal representative of a desired set point cycle speed of the cyclic load;
  
  speed controller means for receiving and comparing the transducer signal and the outside set point signal and generating a speed set point signal representative of an adjustment in the cycle speed needed to achieve the set point cycle speed of the cyclic load;
  
  frequency controller means for receiving and comparing the tachometer signal and the speed set point signal and generating the control signal representative of the power supply frequency necessary to create the difference between the speed of rotation of the motor'"'"'s magnetic field and the speed of rotation of the motor'"'"'s rotor, and thereby the motor output torque, needed to achieve the set point cycle speed of the cyclic load; and
  
  variable frequency power supply means, having a power input connectable to an AC power source and a power output connectable to the AC motor, for receiving and processing the control signal to adjust the frequency of the power supplied to the AC motor and thereby achieve the set point cycle speed of the cyclic load.
- View Dependent Claims (18)
- - 18. The system of claim 17 in which the cyclic load comprises:
    - a pumping unit, driven by the AC motor, which includes;
      
      a down-hole underground pump;
      
      a rod string, connected between the pumping unit and the down-hole pump, for actuating the down-hole pump.

19. A control system for an AC motor driven cyclic load, the AC motor having a rotor driven by a magnetic field, the cyclic load having subcycle speed and loading oscillations, the system comprising:
- a flywheel, rotatably connectable between the motor and the load, for receiving and storing rotational kinetic energy from the motor and the load during portions of a cycle of the cyclic load when there is excess energy and for delivering rotational kinetic energy to drive the load during portions of a cycle when there is energy demand by the cyclic load, the flywheel having a sufficiently large moment of inertia to control subcycle speed variations of the cyclic load;
  
  transducer means for generating a transducer signal which is a function of the cycle speed of the cyclic load;
  
  tachometer means for generating a tachometer signal which is a function of the speed of rotation of the motor'"'"'s rotor;
  
  outside set point means for generating an outside set point signal representative of a desired set point cycle speed of the cyclic load;
  
  speed controller means for receiving and comparing the transducer signal and the outside set point signal and generating a speed control signal representative of the adjustment in the output torque of the AC motor needed to achieve the set point cycle speed of the cyclic load;
  
  slip set point means for generating a slip set point signal representative of a desired set point difference between the speed of rotation of the motor'"'"'s magnetic field and the speed of rotation of the motor'"'"'s rotor;
  
  frequency controller means for receiving and comparing the tachometer signal and the slip set point signal and generating the control signal representative of the adjustment in the power supply frequency output to the motor needed to achieve the desired set point difference between the speed of rotation of the magnetic field and the speed of rotation of the rotor; and
  
  variable frequency power supply means, having a power input connectable to an AC power source and a power output connectable to the AC motor, for receiving and processing the control signal to adjust the frequency of the power supplied to the AC motor and for receiving the speed control signal and varying the voltage output per unit of frequency to the AC motor in order to adjust the output torque of the motor and thereby the cycle speed of the cyclic load.
- View Dependent Claims (20, 21)
- - 20. The system of claim 19 in which the speed controller means comprises:
    - integrating means for delaying the response of the speed controller means to changes in the cycle speed of the cyclic load.
  - 21. The system of claim 19 in which the cyclic load comprises:
    - a pumping unit, driven by the AC motor, which includes;
      
      a down-hole underground pump;
      
      a rod string, connected between the pumping unit and the down-hole pump, for actuating the down-hole pump.

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Current Assignee
Duncan M. Butlin
Original Assignee
Duncan M. Butlin
Inventors
Butlin, Duncan M.
Primary Examiner(s)
Smith, Leonard E.
Assistant Examiner(s)
Scheuermann, David W.

Application Number

US07/350,545
Time in Patent Office

558 Days
Field of Search

417/22, 417/44, 417/24, 417/45, 417/53, 318/811, 318/807, 318/808
US Class Current

417/18
CPC Class Codes

E21B 43/127 Adaptations of walking-beam...

E21B 47/009 Monitoring of walking-beam ...

Control system and method for AC motor driven cyclic load

First Claim

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Abstract

172 Citations

21 Claims

Specification

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Control system and method for AC motor driven cyclic load

First Claim

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Accused Products

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Abstract

172 Citations

21 Claims

Specification

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Solutions

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