Electromechanical wrench
First Claim
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1. An electromechanical wrench, comprising:
- a housing that has a working end and a gripping end, with a driver positioned at the working end, and a handle positioned at the gripping end;
a click wrench emulator mechanism provided at the handle, the mechanism including;
a handle lever that partially extends outside the housing at the handle and which is pivotally coupled to the housing;
a hammer that resides inside the housing and is pivotally coupled to the housing, the hammer having a striking edge that is normally spaced-apart from the handle lever;
a sear pivotally coupled to the housing and having a portion thereof that normally engages the hammer;
a solenoid coupled to the sear; and
wherein the solenoid is actuated to cause the sear to pivot, thereby causing the sear to be disengaged from the hammer, the hammer being biased to cause the striking edge to strike the handle lever.
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Abstract
An electromechanical wrench has a housing that has a working end and a gripping end, with a driver positioned at the working end, and a handle positioned at the gripping end. The wrench further includes a click wrench emulator mechanism provided at the handle. A method of using an electromechanical wrench to secure a fastener using angular measurement without the need for establishing a zero reference point, and allowing for ratcheting, is also provided. A method of counting the number of fasteners secured by an electromechanical wrench during a wrenching job is further provided.
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Citations
13 Claims
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1. An electromechanical wrench, comprising:
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a housing that has a working end and a gripping end, with a driver positioned at the working end, and a handle positioned at the gripping end; a click wrench emulator mechanism provided at the handle, the mechanism including; a handle lever that partially extends outside the housing at the handle and which is pivotally coupled to the housing; a hammer that resides inside the housing and is pivotally coupled to the housing, the hammer having a striking edge that is normally spaced-apart from the handle lever; a sear pivotally coupled to the housing and having a portion thereof that normally engages the hammer; a solenoid coupled to the sear; and wherein the solenoid is actuated to cause the sear to pivot, thereby causing the sear to be disengaged from the hammer, the hammer being biased to cause the striking edge to strike the handle lever. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method of counting the number of fasteners secured by an electromechanical wrench during a wrenching job, comprising:
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a. setting initial values for 50% and 96% torque levels from the target torque level; b. initializing the torque value and the bolt counter values; c. applying torque to a fastener using the wrench, and accumulating angle measurements between the 50% and 96% torque levels at an angle accumulator; d. if the torque input is greater than or equal to the 50% torque level, then accumulating the angle value, otherwise holding the present angle value until the torque input is greater than or equal to the 50% torque level; e. upon reaching the 96% torque level, checking the accumulated angle value for a pre-programmed angle allowance, and if the accumulated angle value exceeds the allowance, then the fastener is considered properly installed and the bolt counter is incremented by one, otherwise if the accumulated angle value is less than the accumulated angle value plus the allowance, issuing a signal to indicate that the fastener has been previously installed, and then resetting the angle accumulator; and f. repeating steps (a)-(e) for additional fasteners until the total number of fasteners counted equals the desired number for the wrenching job.
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13. A method of using an electromechanical wrench to secure a fastener using angular measurement without the need for manually establishing a zero reference point, and allowing for ratcheting, comprising:
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a. setting a target angle value and initializing a peak torque register; b. clearing the displayed angle to “
zero”
when torque is first applied to the wrench;c. applying torque to a fastener using the wrench, accumulating angle and torque measurements, and continuously updating the displayed angle; d. using both torque and angle signals to correct for angle sensor drift continuously without the need for user input; e. if the torque value does not increase, then holding the present angle value, otherwise increasing angle measurement if the torque value increases beyond the previously-recorded peak torque value; f. completing the operation when the angle measurement equals the target angle value.
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Specification