Impact tool control method and apparatus and impact tool using the same
First Claim
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1. A method for determining torque applied to a fastener comprising the steps of:
- beginning a fastener tightening sequence;
applying torque pulses to the fastener during the fastener tightening sequence;
measuring the values of amplitude and duration of each torque pulse applied to the fastener during the fastener tightening sequence;
measuring the duration between the torque pulses;
processing the amplitude and duration of the torque pulses to obtain the total torque applied to the fastener during the fastener tightening sequence; and
terminating the fastener tightening sequence, wherein the processing step comprises;
generating a torque pulse signal based on the torque pulses;
subtracting a torque signal from the torque pulse signal to generate a difference signal; and
integrating the difference signal to obtain a fastener angular velocity signal.
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Abstract
An impact tool control method and apparatus and an impact tool using the same. Pulses of torque applied to a fastener by the impact tool are measured. The duration and magnitude of the torque pulse are subtracted from a torque signal and the resulting difference is integrated over time to obtain a fastener angular velocity signal. The angular velocity signal is integrated over time to obtain a displacement signal which can be converted to a torque signal. The impact tool can be controlled based on the value of the torque signal.
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Citations
21 Claims
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1. A method for determining torque applied to a fastener comprising the steps of:
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beginning a fastener tightening sequence;
applying torque pulses to the fastener during the fastener tightening sequence;
measuring the values of amplitude and duration of each torque pulse applied to the fastener during the fastener tightening sequence;
measuring the duration between the torque pulses;
processing the amplitude and duration of the torque pulses to obtain the total torque applied to the fastener during the fastener tightening sequence; and
terminating the fastener tightening sequence, wherein the processing step comprises;
generating a torque pulse signal based on the torque pulses;
subtracting a torque signal from the torque pulse signal to generate a difference signal; and
integrating the difference signal to obtain a fastener angular velocity signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
wherein;
Tn=calculated torque in the fastener after n impulses;
Vn−
=calculated work performed upon the fastener after n impulses;
K4=a constant;
T0=desired torque on fasteners;
(Ttool−
Vn=1)·
Δ
t=the area under the measured torque signal for impulse n which exceeds Vn−
1.
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3. A method as recited in claim 2, further comprising the step of terminating said applying step when Vn exceeds a predetermined threshold.
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4. A method as recited in claim 3, wherein the threshold is determined in accordance with the following relationship:
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5. A method as recited in claim 4, further comprising the step of imputing a value of desired fastener torque.
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6. A method as recited in claim 1, wherein said processing step further comprises the steps of:
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integrating the velocity signal to obtain a fastener angular displacement signal; and
converting the angular displacement signal to the torque signal representing torque on the fastener.
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7. A method as recited in claim 6, wherein said step of integrating the difference signal is accomplished only when the difference signal has a value of greater than zero.
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8. A method as recited in claim 6, further comprising the steps of:
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comparing the value of the torque signal to a preset threshold value; and
terminating said applying step when the value of the torque signal equals or exceeds the threshold value.
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9. A method as recited in claim 8, wherein the threshold value is a value of desired torque of the fastener.
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10. A method as recited in claim 6, wherein said generating step comprises:
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producing a magnetic field based on the torque in a shaft of a tool applying the torque pulses;
inducing a voltage in a detector with the magnetic field; and
integrating the voltage.
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11. A method as recited in claim 10, wherein said producing step is accomplished by a magnetoelastic transducer disposed on the shaft.
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12. An impact tool comprising:
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a body;
an output shaft adapted to be coupled to a fastener;
means for applying torque pulses to said output shaft during a fastener tightening sequence;
a torque transducer coupled to said output shaft; and
means for monitoring the entire tightening sequence and processing the output of the torque transducer to obtain torque on the fastener, wherein the means for processing comprises, means for generating a torque pulse signal based on the output of the torque transducer;
means for subtracting a torque signal from the torque impulse signal to generate a difference signal; and
means for integrating the difference signal to obtain a fastener angular velocity signal. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21)
means for integrating the velocity signal to obtain a fastener angular displacement signal; and
means for converting the angular displacement signal to the torque signal representing torque on the fastener.
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14. An impact tool as recited in claim 13, wherein said means for generating a torque pulse signal, said means for subtracting a torque signal from the torque pulse signal, said means for integrating the difference signal, said means for integrating the velocity signal, and said means for converting all comprise a programmable microprocessor based controller.
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15. An impact tool as recited in claim 13, wherein said means for generating a torque pulse signal, said means for subtracting a torque signal from the torque pulse signal, said means for integrating the difference signal, said means for integrating the velocity signal, and said means for converting all comprise an analog circuit controller.
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16. An impact tool as recited in claim 13, wherein said means for integrating the difference signal is activated only when the difference signal has a value of greater than zero.
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17. An impact tool as recited in claim 13, further comprising:
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means for comparing the value of the torque signal to a preset threshold value; and
means for terminating said means for applying when the value of the torque signal equals or exceeds the threshold value.
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18. An impact tool as recited in claim 17, wherein the threshold value is a value of desired torque of the fastener.
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19. An impact tool as recited in claim 13, wherein said means for generating comprises:
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means for producing a magnetic field based on the torque in said shaft;
means for inducing a voltage in a coil with the magnetic field; and
means for integrating the voltage.
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20. An impact tool as recited in claim 19, wherein said means for producing comprises a magnetoelastic transducer coupled to said output shaft.
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21. An impact tool as recited in claim 13 wherein, said means for subtracting a torque signal from the torque pulse signal comprises a differential amplifier, said means for integrating the difference signal comprises an op amp integrator, and said means for integrating the velocity signal comprises an op-amp integrator.
Specification
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Current AssigneeMethode Electronics Incorporated
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Original AssigneeMagna-Lastics Devices Inc.
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InventorsJones, Christopher, Cripe, David W.
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Primary Examiner(s)Rada, Rinaldi I.
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Assistant Examiner(s)Nash, Brian D.
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Application NumberUS09/736,290Publication NumberTime in Patent Office1,082 DaysField of Search173/1, 173/2, 173/181, 173/183, 173/93, 173/93.5, 173/176, 173/180, 173/217, 700/173US Class Current173/176CPC Class CodesB25B 23/14 Arrangement of torque limit...B25B 23/1405 for impact wrenches or scre...
