Control system for vibrating a member at its resonant frequency

US 4,395,665 A
Filed: 06/09/1981
Issued: 07/26/1983
Est. Priority Date: 06/09/1981
Status: Expired due to Term

First Claim

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1. A control system for drivingly vibrating a member at its resonant frequency, said control system comprising:

an electromagnetic drive means for said member;

a means separate from said electromagnetic drive means for detecting the vibratory movement of said member and for producing a detected frequency electrical signal having a frequency exactly equal to the vibratory frequency of said member; and

a means responsive to said detected frequency signal for exciting said electromagnetic drive means with electrical power at a frequency exactly equal to that of said detected frequency signal so that said drive means drives said member at exactly the same frequency as that detected by said detecting means.

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Abstract

A control system is disclosed for use with a device, such as a vibratory bowl feeder, having a bowl or other member mounted for vibratory motion and including an electromagnetic driver for vibratorily driving the part. The control system includes a detector for detecting the vibratory frequency of the part, which tends to vibrate at its resonant frequency, and causes energizing pulses of power to be supplied to the driver supplied at a frequency equal to the detected frequency. Thus, the driving frequency is made equal to the resonant frequency and follows changes in such frequency to obtain maximum performance. The power to the drivers is also switched so that during alternate pulses the current flows through the driver coil in opposite directions to inhibit buildup of residual magnetism in the coil core. The control system uses a phase-locked loop circuit and other parts comprised of components most of which are available as standard integrated circuits. A means for selectively varying the amplitude of member vibration is also included in the control system.

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14 Claims

1. A control system for drivingly vibrating a member at its resonant frequency, said control system comprising:
- an electromagnetic drive means for said member;
  
  a means separate from said electromagnetic drive means for detecting the vibratory movement of said member and for producing a detected frequency electrical signal having a frequency exactly equal to the vibratory frequency of said member; and
  
  a means responsive to said detected frequency signal for exciting said electromagnetic drive means with electrical power at a frequency exactly equal to that of said detected frequency signal so that said drive means drives said member at exactly the same frequency as that detected by said detecting means.

2. For use with a device having a member supported for vibratory motion and an electromagnetic driver including a coil surrounding a core, a control system for causing said driver to drivingly vibrate said member at the member'"'"'s resonant frequency, said control system comprising:
- a means separate from said electromagnetic driver for detecting the vibratory movement of said member and for producing a detected frequency electrical signal having a frequency exactly equal to the vibratory frequency of said member; and
  
  a means respnsive to said detected frequency signal for producing an electrical drive signal supplied to said driver, said electrical drive signal consisting of spaced pulses of electrical current constrained to flow in opposite directions through said coil of said driver during alternate ones of said pulses and which pulses appear at a frequency exactly equal to that of said detected frequency signal.
- View Dependent Claims (3, 4)
- - 3. A control system as defined in claim 2 further characterized by said means for producing an electrical drive signal including a source of D.C. power, and a switching means connected between said source and said coil for switching between one state at which power from said source is connected to flow in one direction through said driver coil and a second state at which power from said source is connected to flow in the other direction through said driver coil, and means for switching said switching means between said first and second states at a frequency directly related to the frequency of said detected frequency signal.
  - 4. A control system as defined in claim 3 further characterized by said means for controlling said switching means including a phase-locked loop circuit.

5. For use with a device having a member supported for vibratory motion and an electromagnetic driver including a coil surrounding a core, a control system for causing said driver to drivingly vibrate said member at the member'"'"'s resonant frequency, said control system comprising:
- a means for detecting the vibratory movement of said member and for producing a detected frequency electrical signal having a frequency equal to the vibratory frequency of said member;
  
  a means responsive to said detected frequency signal for producing an electrical drive signal supplied to said driver, said electrical drive signal consisting of spaced pulses of electric current constrained to flow in opposite directions through said coil of said driver during alternate ones of said pulses and which pulses appear at a frequency equal to that of said detected frequency signal;
  
  said means for producing an electrical drive signal including a source of D.C. power, a switching means connected between said source and said coil for switching between one state at which power from said source is connected to flow in one direction through said driver coil and a second state at which power from said source is connected to flow in the other direction through said driver coil, and means including a phase-locked loop circuit for switching said switching means between said first and second states at a frequency directly related to the frequency of said detected frequency signal, said phase-locked loop circuit including a phase comparator and a voltage controlled oscillator, said phase comparator having said detected frequency signal as an input thereto, and said voltage controlled oscillator having an output frequency equal to Nf where f is the frequency of the input signal to the phase comparator and N is an integer, a divide by 2N counter with 2N decoded outputs, and two one shot multivibrators each connected with a different one of the outputs of said counter for producing, in combination, two trains of pulses the pulses of which alternate in time and which are supplied to said switching means to switch said switching means between its first and second states.
- View Dependent Claims (6, 7, 8)
- - 6. A control system as defined in claim 5 wherein said voltage controlled oscillator has a frequency equal to four times the frequency of the signal input to said phase comparator and wherein said counter is a divide by eight counter.
  - 7. A control system as defined in claim 5 further characterized by means for selectively controlling the duration of the output pulses produced by said two one shot multivibrators to selectively control the amplitude at which said member is driven by said driver.
  - 8. A control system as defined in claim 5 further characterized by a means for selectively connecting and disconnecting said pulse comparator to and from said detected frequency signal, said voltage controlled oscillator having a center frequency at which it runs when said detected frequency signal is disconnected from said phase comparator, and means for selectively varying said center frequency of said voltage controlled oscillator.

9. A control system for use with a device having a member supported for vibratory motion and an electromagnetic driver including a coil surrounding a core, said control system comprising:
- a means for detecting the vibratory movement of said member and for producing a detected frequency electrical signal having a frequency corresponding to the vibratory frequency of said member;
  
  a phase-locked loop circuit including a phase comparator having said detected frequency signal as an input thereto, a voltage controlled oscillator connected to the output of said phase comparator, a counter connected to the output of said voltage controlled oscillator, and means connecting at least one of the output terminals of said counter to said phase comparator to provide a feedback signal with which said detected frequency input signal is compared;
  
  a means providing a source of DC power;
  
  a switching means connected between said source of DC power and said driver coil and switchable between one state in which current from said DC source is connected to flow in one direction through said driver coil and a second state in which current from said DC source is connected to flow in the other direction through said driver coil; and
  
  means responsive to the output signals appearing at at least one of the output terminals of said counter for alternately switching said switching means between said first and second states.

10. A control system for use with a device having a member supported for vibratory motion and an electromagnetic driver including a coil surrounding a core, said control system comprising:
- a means for detecting the vibratory movement of said member and for producing a detected frequency electrical signal having a frequency corresponding to the vibratory frequency of said member;
  
  a phase-locked loop circuit including a phase comparator having said detected frequency signal as an input thereto, a voltage controlled oscillator connected to the output of said phase comparator, a counter connected to the output of said voltage controlled oscillator, said voltage controlled oscillator having an output frequency equal to N times the frequency of the signal input to said phase comparator and said counter being a 2N counter with a code converter and 2N output tereminals, and an OR gate connecting two of said output terminals of said counter to said phase comparator to provide a feedback signal with which said detected frequency input signal is compared;
  
  a means providing a source of DC power;
  
  a switching means connected between said source of DC power and said driver coil and switchable between one state in which current from said DC source is connected to flow in one direction through said driver coil and a second state in which current from said DC source is connected to flow in the other direction through said driver coil; and
  
  means responsive to the output signals appearing at two other output terminals of said counter for alternately switching said switching means between said first and second states.
- View Dependent Claims (11, 12, 13, 14)
- - 11. A control system as defined in claim 9 or 10 further characterized by a switch between said vibratory movement detector and said phase comparator for selectively connecting and disconnecting said detected frequency electrical signal to and from said phase comparator, said voltage controlled oscillator having a center frequency at which it runs when said switch is set to disconnect said detected frequency electrical signal from said phase comparator, and means for selectively adjusting said center frequency of said voltage controlled oscillator.
  - 12. A control system as defined in claim 10 further characterized by two one-shot multivibrators each connected to a respective one of said other two terminals of said counter for producing output pulses which control the switching of said switching means.
  - 13. A control system as defined in claim 12 further characterized by means for controlling the duration of the output pulses produced by said two one-shot multivibrators to selectively control the amplitude at which said member is driven by said driver.
  - 14. A control system as defined in claim 13 further characterized by said means for controlling the duration of the output pulses produced by said two one-shot multivibrators including a means responsive to both a manual setting and to the output of said vibratory movement detecting means for automatically maintaining the amplitude of said bowl vibration at a substantially constant value.

Specification

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Litigation Campaign Assessment

Current Assignee
The Arthur G. Russell Co., Inc.
Original Assignee
The Arthur G. Russell Co., Inc.
Inventors
Buchas, Gerald L.
Primary Examiner(s)
Truhe, J. V.
Assistant Examiner(s)
Evans, A.

Application Number

US06/271,819
Time in Patent Office

777 Days
Field of Search

318/114, 318/126, 318/127, 318/128, 318/129, 318/130
US Class Current

318/114
CPC Class Codes

B06B 1/0261   taken from a transducer or ...

B06B 2201/53   with vibrating magnet or coil

B06B 2201/70   Specific application

Control system for vibrating a member at its resonant frequency

First Claim

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Abstract

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14 Claims

Specification

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Control system for vibrating a member at its resonant frequency

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

14 Claims

Specification

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Solutions

Use Cases

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