Crippen
Jason Mchan Crippen, Knoxville, TN US
Patent application number | Description | Published |
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20140102378 | ROTARY SHEDDING BLADE DRILL ATTACHMENT FOR GROOMING - A rotary shedding blade drill attachment includes a plurality of shedding blades disposed between plates rotatable by a shaft. The rotary shedding blade drill attachment includes a plurality of shedding blades that can turn by mechanical power, such as by a cordless drill. Unlike conventional shedding blades, which includes a single blade, or a single blade in a loop, powered through manual labor, the rotary shedding blade drill attachment includes a plurality of shedding blades whose movement is powered through mechanical assistance, thus saving the user time and labor. | 04-17-2014 |
Thomas E. Crippen, Tyler, TX US
Patent application number | Description | Published |
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20110132158 | Digital Beam Torque Wrench with an Electronic Sensor - A torque wrench includes a main beam having a distal end and a proximal end, a drive element disposed at the distal end of the main beam, a stationary beam having a distal end fixedly secured to the main beam at a first location on the main beam, and having a proximal end, and a displacement sensor assembly disposed at a second location associated with the main beam and with the stationary beam to detect an amount of displacement of the main beam relative to the stationary beam. The displacement sensor assembly includes an actuating element secured to one of the main beam or the stationary beam and a sensor rigidly secured to the other one of the main beam or the stationary beam and responsive to the actuating element. An electronic component is configured to generate a torque measurement based on the generated electrical signal, and store at least one of the generated electrical signal and the torque measurement for a several positions of the main beam relative to the stationary beam. | 06-09-2011 |
Warren S. Crippen, Aloha, OR US
Patent application number | Description | Published |
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20140210499 | INCREASING CURRENT CARRYING CAPABILITY THROUGH DIRECT LIQUID COOLING OF TEST CONTACTS - Testing methods and systems are described. One method for testing an electronic device includes providing a probe in electrical contact with a device. The method also includes positioning an interface of the probe and the device in a liquid medium. The method also includes transmitting a current from the probe through the interface while the interface is in the liquid medium. Other embodiments are described and claimed. | 07-31-2014 |
20140239995 | TEST PROBES - The formation of test probe structures is described. One test probe structure includes a tip portion and a handle portion spaced a distance away from the tip portion. The test probe structure also includes a body bend portion positioned between the tip portion and the handle portion, and an intermediate portion positioned between the body bend portion and the handle portion. The body bend portion may include a curved shape extending from the intermediate portion to the tip portion. The tip portion may be formed to be offset from a longitudinal axis defined by the intermediate portion. The test probe structure defines a length and includes a cross-sectional area that is different at a plurality of positions along the length. Other embodiments are described and claimed. | 08-28-2014 |