Method of controlling an automated mechanical transmission shift mechanism
First Claim
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1. For use with an automated mechanical transmission system including at least one shift rail and an electric shifting mechanism, the shifting mechanism including a shift finger driven by a motor, the shift finger for cooperating with the shift rail to effect shifting of the transmission, a method of controlling the shifting mechanism, the method comprising:
- energizing the shift mechanism, while the transmission is in gear, with a low effective voltage signal having a pulse width to obtain a target motor current, the shift mechanism applying a preload force to the shift rail, the motor being unable to rotate and move the shift rail to pull the transmission out of gear due to the in-gear transmission torque; and
detecting rotation of the motor due to a reduction in the transmission torque, based on the stability of the voltage signal pulse width over a predetermined period of time, the pulse width increasing to maintain the target current as the motor rotates, for the purpose of shifting the transmission out of gear during a break in the transmission torque.
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Abstract
For use with an automated mechanical transmission system including an electrically actuated shift mechanism having a motor, a method of controlling the shift mechanism is provided for shifting the transmission out of gear during a reduced torque shift window by quickly detecting motor motion. The shift mechanism is first energized with a low effective voltage signal to minimize power consumption and avoid overheating the motor, and then with a high effective voltage signal upon detection of motor motion, to quickly shift the transmission out of gear.
59 Citations
9 Claims
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1. For use with an automated mechanical transmission system including at least one shift rail and an electric shifting mechanism, the shifting mechanism including a shift finger driven by a motor, the shift finger for cooperating with the shift rail to effect shifting of the transmission, a method of controlling the shifting mechanism, the method comprising:
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energizing the shift mechanism, while the transmission is in gear, with a low effective voltage signal having a pulse width to obtain a target motor current, the shift mechanism applying a preload force to the shift rail, the motor being unable to rotate and move the shift rail to pull the transmission out of gear due to the in-gear transmission torque; and detecting rotation of the motor due to a reduction in the transmission torque, based on the stability of the voltage signal pulse width over a predetermined period of time, the pulse width increasing to maintain the target current as the motor rotates, for the purpose of shifting the transmission out of gear during a break in the transmission torque.
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- 2. The method of claim i further comprising energizing the shift mechanism with a high effective voltage signal upon detecting rotation of the motor to maximize shift finger acceleration and velocity, so as to shift the transmission out of gear during a break in the transmission torque.
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5. For use with an automated mechanical transmission system including at least one shift rail and an electric shifting mechanism, the shifting mechanism including a shift finger driven by a motor, the shift finger for cooperating with the shift rail to effect shifting of the transmission, a method of controlling the shifting mechanism to shift the transmission out of gear during a reduced torque shift window, the method comprising the steps of:
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sensing the position of the shift finger to obtain a position signal; energizing the shift mechanism with a low effective voltage signal such that the shift finger applies a preload force to the shift rail, the motor being unable to rotate and move the shift rail to pull the transmission out of gear due to the transmission torque; monitoring the shift finger position signal to detect rotation of the motor due to a reduction in the transmission torque which allows the preload force to move the shift rail; and energizing the shift mechanism with a high effective voltage signal upon detecting rotation of the motor to maximize shift finger acceleration and velocity, so as to shift the transmission out of gear during a break in the transmission torque. - View Dependent Claims (6)
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7. For use with an automated transmission system including at least one and an electric shifting mechanism for controlling the shifting of the transmission, the shifting mechanism including a shift finger driven by a motor, the shift finger cooperating with the shift rail to effect shifting of the transmission, a method of controlling the shifting mechanism for shifting the transmission out of gear, the method comprising the steps of:
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energizing the motor with a low effective voltage signal having a first pulse-width while the transmission in gear, so as to provide a preload force on the shift rail toward the neutral position, the transmission torque preventing the motor from rotating; reducing the transmission torque so as to create a shift window during which the preload force on the shift rail is sufficient to initiate movement of the shift rail toward the neutral position, the motor rotating upon the initiation of shift rail movement; detecting rotation of the motor based on the stability of the voltage signal pulse width over a predetermined period of time, the pulse width increasing as the motor rotates; and energizing the motor with a high effective voltage signal having a second pulse width upon rotation of the motor, so as to maximize shift finger acceleration and velocity, thereby ensuring shifting of the transmission out of gear during the shift window. - View Dependent Claims (8, 9)
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Specification
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Current AssigneeEaton Corp. (Wisconsin) (Eaton Corporation PLC.), Symetrix Corporation
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Original AssigneeEaton Corp. (Wisconsin) (Eaton Corporation PLC.)
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InventorsJanecke, Daniel P., Edelen, Stephen A., Kominek, Leo A.
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Primary Examiner(s)Ro, Bentsu
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Application NumberUS07/985,190Time in Patent Office575 DaysField of Search318/9, 318/10, 318/560, 318/561, 318/599, 318/626, 318/34, 318/53, 318/264, 318/265, 318/266, 318/286, 318/466, 318/467, 318/468, 364/424.1, 74/335, 74/365, 74/866US Class Current318/561CPC Class CodesF16H 2063/005 Preassembled gear shift uni...F16H 61/0248 Control units where shiftin...F16H 61/32 Electric motors actuators o...
