Electrical power tool having a motor control circuit for increasing the effective torque output of the power tool

US 5,440,215 A
Filed: 07/06/1993
Issued: 08/08/1995
Est. Priority Date: 07/06/1993
Status: Expired due to Term

First Claim

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1. A power tool having a tool holder, gear means coupled to said tool holder, operator actuable input means, and an electric motor for driving said tool holder via said gear means, said gear means having associated therewith a degree of looseness that must be taken up before torque from said motor is transferred to said tool holder and which further results in said gear means relaxing after power to said motor is interrupted;

the improvement comprising;

current sensing means for sensing a current flow through the motor of the power tool; and

control means responsive to actuation of said input means for controlling the power supplied to the motor, and further responsive to said current sensing means for detecting when the current through the motor has exceeded a predetermined current level and thereupon, with said input means actuated, repetitively interrupting and reapplying power to the motor such that the off-time intervals are of sufficient duration to enable the gear means to at least partially relax.

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Abstract

A power tool such as an electric drill typically contains a gear train that couples the output spindle of the motor to the tool bit-receiving chuck and has associated therewith a degree of looseness which must be taken up before torque from the motor is applied to the tool bit. The control circuit for the power tool increases the effective torque output of the tool after a predetermined torque level is attained, by alternately turning the motor on and off, with the duration of the off-time sufficient to permit the gear train to relax, thus giving the motor a "running start" when power is reapplied. Various alternative schemes for transitioning to this ratcheting mode of operation are disclosed including the sensing of a predetermined threshold current, a predetermined increase in motor current, and a predetermined rate of deceleration in motor speed. The control circuit preferably provides the operator with means for adjusting the transition point as well as for varying the duration of the on-time in the ratcheting mode. A corresponding method for controlling the operation of the electric motor of a power tool is also disclosed.

137 Citations

38 Claims

1. A power tool having a tool holder, gear means coupled to said tool holder, operator actuable input means, and an electric motor for driving said tool holder via said gear means, said gear means having associated therewith a degree of looseness that must be taken up before torque from said motor is transferred to said tool holder and which further results in said gear means relaxing after power to said motor is interrupted;
- the improvement comprising;
  
  current sensing means for sensing a current flow through the motor of the power tool; and
  
  control means responsive to actuation of said input means for controlling the power supplied to the motor, and further responsive to said current sensing means for detecting when the current through the motor has exceeded a predetermined current level and thereupon, with said input means actuated, repetitively interrupting and reapplying power to the motor such that the off-time intervals are of sufficient duration to enable the gear means to at least partially relax.
- View Dependent Claims (2, 3, 4)
- - 2. The power tool of claim 1 further comprising operator adjustable means in communication with said control means for adjusting said predetermined current level.
  - 3. The power tool of claim 1 wherein said control means includes memory means for storing a plurality of selectable off-time intervals.
  - 4. The power tool of claim 1 wherein said off-time interval is sufficient to permit said gear means of said power tool to completely relax after current through said motor is completely interrupted.

5. An electrical power tool having a control circuit for controlling the motor of the electrical power tool such that said motor alternately develops maximum and minimum levels of torque when a predetermined loading upon said motor is reached during operation of said power tool, said control circuit comprising:
- means for sensing a current flow through said motor;
  
  switching means for controlling said current flow through said motor;
  
  controller means responsive to said current sensing means for controlling said switching means to thereby control said current flow through said motor;
  
  means for providing an operator-adjustable current threshold signal to said controller means;
  
  memory means in communication with said controller means for storing information corresponding to a plurality of predetermined on-time intervals;
  
  such that when said current flow detected by said current sensing means exceeds said current threshold signal said controller means causes said switching means to cyclically interrupt current flow through said motor for a time interval in accordance with a predetermined off-time interval sufficient to allow a gear train associated with said motor to at least partially relax, and apply a maximum current signal to said motor in accordance with a selected one of said predetermined on-time intervals.
- View Dependent Claims (6, 7)
- - 6. The power tool of claim 5 further comprising speed sensor means for monitoring the speed of said motor and providing a signal in accordance therewith to said controller means.
  - 7. The power tool of claim 6 wherein said controller means modifies said current threshold signal in accordance with said signal received from said speed sensing means.

8. A method for controlling a motor of an electric power tool such that said motor is caused to repetitively generate substantial variations in torque output once a predetermined current flow through said motor is reached, said method comprising the steps of:
- applying power to the motor in accordance with an operator actuable switch means;
  
  providing a current threshold level;
  
  sensing the current flow through said motor of said power tool;
  
  comparing said sensed current flow through said motor against said current threshold level; and
  
  with said switch means actuated, repetitively cycling the motor on and off when said current flow through said motor exceeds said current threshold level such that current flow through said motor is alternatively turned off for a predetermined off-time sufficient to allow a gear train associated with said motor to at least partially relax, and after said predetermined off-time has expired, current flow is re-established through said motor for a predetermined on-time interval.
- View Dependent Claims (9)
- - 9. The method of claim 8 wherein said operator actuable switch meanscomprises an operator-controllable trigger switch for controlling the speed of said motor;
    - and further comprising the steps of;
      
      sensing the speed of said motor; and
      
      vary said current threshold level in accordance with said sensed motor speed.

10. A method for controlling a motor of an electrically driven power tool such that said motor is caused to be driven alternately full on and off during operation of said power tool, the method comprising the steps of:
- providing a motor voltage in accordance with the position of an operator-actuable trigger switch;
  
  taking a first reading of the current (I₁) through said motor;
  
  waiting a predetermined time interval;
  
  taking a second current reading (I₂) through said motor;
  
  comparing I₂ with I₁ to determine if I₂ is greater than I₁ by at least a predetermined factor;
  
  when I₂ is greater than I₁ by at least said predetermined factor,interrupting current flow to said motor to thereby turn said motor full-off for a predetermined off-time duration, where said off-time duration is sufficient to allow a gear train of said power tool to at least partially relax, andafter said off-time duration has expired, providing a maximum current flow to said motor to thereby turn said motor full-on for a predetermined on-time;
  
  when said on-time duration has expired, determining whether said trigger switch is still being actuated; and
  
  if said trigger is still being actuated, repeating said steps of alternately interrupting current flow and applying a maximum current flow until said trigger is released by the operator.

11. A method for controlling a motor of an electrically driven power tool such that said motor is caused to be driven alternately full on and off during operation of said power tool, the method comprising the steps of:
- providing a motor voltage in accordance with the position of an operator-actuable trigger;
  
  taking a first reading of the speed of said motor;
  
  waiting a predetermined time interval;
  
  taking a second reading of the speed of said motor;
  
  when said second reading has decreased in magnitude from said first reading by a predetermined amount, interrupting current flow to said motor for an off-time sufficient to allow a gear train associated with said motor to at least partially relax;
  
  after said off-time has expired, applying a maximum current signal to said motor for a predetermined on-time;
  
  determining if said trigger switch is still actuated; and
  
  if said trigger switch is still actuated, repeating said steps of alternately interrupting current flow and applying a maximum current flow until said trigger switch is released by the operator.

12. A power tool having a tool holder, gear means coupled to said tool holder, and an electric motor for driving said tool holder via said gear means, said gear means having associated therewith a degree of looseness which must be taken up before torque from said motor is transferred to said tool holder and which further results in said gear means relaxing after power to said motor is interrupted;
- the improvement comprising a control circuit for controlling the application of power to said motor including sensing means for sensing an operating parameter of said motor, and controller means responsive to said sensing means for detecting a predetermined occurrence in said operating parameter and thereupon cyclically interrupting power to said motor for an off-time sufficient to enable said gear means to at least partially relax and reapplying power to said motor for an on-time to enable said motor to build up potential energy as the looseness in said gear means is taken up to thereby cause substantial repetitive variations in the torque applied to the tool holder.
- View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
- - 13. The power tool of claim 12 wherein said sensing means comprises a current sensor for sensing the current being drawn by said motor and said controller means is adapted to detect a predetermined change in said motor current.
  - 14. The power tool of claim 13 wherein said controller means is adapted to detect when said motor current exceeds a predetermined level.
  - 15. The power tool of claim 14 wherein said control circuit further includes adjustment means for varying said predetermined current level.
  - 16. The power tool of claim 15 wherein said controller means is adapted to automatically vary said on-time in accordance with the setting of said predetermined current level.
  - 17. The power tool of claim 14 further including a speed sensor for sensing the rotational speed of said motor, and further wherein said controller means is further adapted to vary said predetermined current level in accordance with the sensed rotational speed of the motor.
  - 18. The power tool of claim 13 wherein said controller means is adapted to detect when said motor current has increased by a predetermined amount.
  - 19. The power tool of claim 13 wherein said controller means is adapted to detect when said motor current has increased by a predetermined percentage amount.
  - 20. The power tool of claim 13 wherein said controller means is adapted to detect when the rate of increase in motor current exceeds a predetermined level.
  - 21. The power tool of claim 12 wherein said sensing means comprises a speed sensor for sensing the rotational speed of the motor and said controller means is adapted to detect a predetermined change in motor speed.
  - 22. The power tool of claim 21 wherein said controller is adapted to detect a predetermined decrease in motor speed.
  - 23. The power tool of claim 21 wherein said controller is adapted to detect a predetermined percentage decrease in motor speed.
  - 24. The power tool of claim 21 wherein said controller is adapted to detect a predetermined rate of deceleration in motor speed.
  - 25. The power tool of claim 12 wherein said control circuit further includes adjustment means for varying said on-time.

26. A method of controlling a power tool having a tool holder, gear means coupled to said tool holder, and an electric motor for driving said tool holder via said gear means, said gear means having associated therewith a degree of looseness which must be taken up before torque from said motor is transferred to said tool holder and which further causes said gear means to relax after power to said motor is interrupted;
- the method comprising the steps of;
  
  applying power to said motor,monitoring an operating parameter of said motor,detecting a predetermined occurrence in said operating parameter, andthereupon cyclically interrupting power to said motor for an off-time sufficient to enable said gear means to at least partially relax and reapplying power to said motor for an on-time to enable said motor to build up potential energy as the looseness in said gear means is taken up to thereby increase the effective torque output of said motor.
- View Dependent Claims (27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38)
- - 27. The method of claim 26 wherein said monitoring step comprises sensing the current being drawn by said motor and said detecting step comprises detecting a predetermined change in said motor current.
  - 28. The method of claim 27 wherein said detecting step comprises detecting when said motor current exceeds a predetermined level.
  - 29. The method of claim 28 wherein said detecting step comprises detecting when the rate of increase in motor current exceeds a predetermined level.
  - 30. The method of claim 28 further including the step of selectively setting said predetermined current level.
  - 31. The method of claim 30 further including the step of automatically adjusting said on-time in accordance with the setting of said predetermined current level.
  - 32. The method of claim 28 further including the steps of sensing the rotational speed of the motor and adjusting said predetermined current level in accordance with said sensed speed.
  - 33. The method of claim 27 wherein said detecting step comprises detecting when said motor current has increased by a predetermined amount.
  - 34. The method of claim 27 wherein said detecting step comprises detecting when said motor current has increased by a predetermined percentage amount.
  - 35. The method of claim 26 wherein said monitoring step comprises sensing the rotational speed of the motor and said detecting step comprises detecting a predetermined change in motor speed.
  - 36. The method of claim 35 wherein said detecting step comprises detecting a predetermined decrease in motor speed.
  - 37. The method of claim 35 wherein said detecting step comprises detecting a predetermined percentage decrease in motor speed.
  - 38. The method of claim 35 wherein said detecting step comprises detecting a predetermined rate of deceleration in motor speed.

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Current Assignee
Black & Decker Incorporated (Stanley Black & Decker, Inc.)
Original Assignee
Black & Decker Incorporated (Stanley Black & Decker, Inc.)
Inventors
Gilmore, Alan A.
Primary Examiner(s)
Martin, David S.

Application Number

US08/087,932
Time in Patent Office

763 Days
Field of Search

388/937, 388/809-823, 388/901.5, 388/930, 388/904, 388/916, 318/432, 318/434, 318/798-811, 173/2, 173/11, 173/176, 173/178-179
US Class Current

318/432
CPC Class Codes

B23P 19/066   by electrical means

B25B 21/00   Portable power-driven screw...

B25B 23/1415   Break members; Arrangements...

B25B 23/147   specially adapted for elect...

B25F 5/001   Gearings, speed selectors, ...

Y10S 388/916   Threshold circuit

Y10S 388/93   Load or torque

Y10S 388/937   Hand tool

Electrical power tool having a motor control circuit for increasing the effective torque output of the power tool

First Claim

1 Assignment

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Accused Products

Abstract

137 Citations

38 Claims

Specification

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Electrical power tool having a motor control circuit for increasing the effective torque output of the power tool

First Claim

1 Assignment

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

137 Citations

38 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links