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Dechristopher, US
Brian Dechristopher, Mountain View, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20110014699 | PROSTRATIN ANALOGS, BRYOSTATIN ANALOGS, PRODRUGS, SYNTHETIC METHODS, AND METHODS OF USE - Embodiments of the present disclosure provide for prostratin analogs, bryostatin analogs, prodrugs of prostratin and prostratin analogs, methods of making prostratin analogs, and methods of making prodrugs of prostratin and prostratin analogs, methods of use of prostratin analogs, bryostatin analogs, and prodrugs thereof, and the like. | 01-20-2011 |
David M. Dechristopher, Ephrata, PA US
| Patent application number | Description | Published |
|---|---|---|
| 20090139196 | WINDROW MERGER LIFT MECHANISM - A windrow merger lift mechanism having on a pair of rotational axes, skewed with respect to each other, to manipulate a merger apparatus between working and non-working positions. When the merger apparatus is in a first, or working position, the lift mechanism positions it to receive crop material from the conditioner rolls with minimal losses. When the merger apparatus is in a second, or non-working position, the lift mechanism positions the merger apparatus to allow crop material to be discharged from the header/conditioner with the same efficiency as a windrower having no installed merger attachment. The skewed axes of the merger lift mechanism optimize the merger position in both the working and non-working positions by moving the merger apparatus in four distinct, but related degrees of motion as the merger apparatus is moved between the positions. | 06-04-2009 |
| 20090320432 | Windrow Merger Lift Mechanism - A windrow merger lift mechanism having on a pair of rotational axes, skewed with respect to each other, to manipulate a merger apparatus between working and non-working positions. When the merger apparatus is in a first, or working position, the lift mechanism positions it to receive crop material from the conditioner rolls with minimal losses. When the merger apparatus is in a second, or non-working position, the lift mechanism positions the merger apparatus to allow crop material to be discharged from the header/conditioner with the same efficiency as a windrower having no installed merger attachment. The skewed axes of the merger lift mechanism optimize the merger position in both the working and non-working positions by moving the merger apparatus in four distinct, but related degrees of motion as the merger apparatus is moved between the positions. | 12-31-2009 |
David M. Dechristopher, Akron, PA US
| Patent application number | Description | Published |
|---|---|---|
| 20080223591 | Push-Steer Implement Hitch - A system for push-steering an implement includes a pair of links, each link connecting the implement to a front portion of a motorized vehicle. Each link of the pair of connected links between the motorized vehicle and the implement is non parallel to each other. In response to the motorized vehicle traveling at a first predetermined steering angle, a traction element developed between at least two wheels of the implement and the driving surface rotatably urges one link toward a predetermined offset angle in a rotational direction opposite of the first predetermined steering angle. The pair of links simultaneously rotatably urges the implement to be steered toward a second predetermined steering angle in the same rotational direction as the first predetermined steering angle. The predetermined offset angle and second predetermined steering angle define a substantially stable position in response to the first predetermined steering angle. | 09-18-2008 |
| 20090087257 | SEAL HUB FOR PROTECTION OF SEAL AND BEARING FROM METAL FRAGMENTS DUE TO SHEARING OF A SHOCK DEVICE - A seal device for preventing entry of debris into a rotary cutter drive housing when a shock protection device having frangible drive features is removed after having fractured the drive features following a driveline overload condition. The housing includes an upwardly facing opening through which a drive shaft for the cutter extends. The drive shaft rotationally engages the shock protection device for driving the rotary cutter. The seal device is disposed in the upwardly facing opening beneath the protection device and includes drive means for rotation in unison with the drive shaft. The seal device further includes a seal interface for sealing interface with a contact seal disposed on the inner circumference of the opening thereby preventing the entry of debris into the housing. | 04-02-2009 |
| 20090088260 | ANNULAR GROOVE IN A SHOCK PROTECTION DEVICE - A shock protection device having opposing pluralities of frangible splines separated by an annular groove disposed in an internal splined opening in a drive hub, the splines for intermeshing engagement with a splined end of a drive shaft for transferring rotary motion to a cutter head from a driveline. Variation in the width of the annular groove enables precise adjustment of the fracture torque for the shock protection device beyond the adjustment possible through variation in the number or configuration of the individual splines. | 04-02-2009 |
Greg Dechristopher, Hickory, NC US
| Patent application number | Description | Published |
|---|---|---|
| 20090003781 | Optical Fiber Cable Having A Deformable Coupling Element - Disclosed is an optical fiber cable that includes optical fibers and a deformable coupling element enclosed within a buffer tube. The coupling element is formed from a deformable yet substantially incompressible material that is capable of releasably and intermittently coupling the optical fibers to the buffer tube in various orientations. The design of the coupling element layer permits coupling of the optical fibers to the buffer tube without the use of a compressive cushioning layer and yet permits localized movement the optical fibers relative to the buffer tube to account for disparate thermal expansion and to accommodate optical fiber placement. | 01-01-2009 |
| 20090003785 | Coupling Composition for Optical Fiber Cables - The present invention relates to a novel coupling composition that is used within optical fiber cables to protect optical fibers and to couple the optical fibers and the surrounding buffer tube casing. The present invention also relates to optical fiber cables that use the novel coupling composition. | 01-01-2009 |
| 20090279833 | Buffer Tube with Adhesively Coupled Optical Fibers and/or Water-Swellable Element - A buffer tube arrangement includes an adhesive material to adhesively bond a water-swellable element to a plurality of optical fibers and/or a buffer tube. | 11-12-2009 |
| 20100098388 | Optical Fiber Cable Having A Deformable Coupling Element - Disclosed is an optical fiber cable that includes optical fibers and a deformable coupling element enclosed within a buffer tube. The coupling element is formed from a deformable yet substantially incompressible material that is capable of releasably and intermittently coupling the optical fibers to the buffer tube in various orientations. The design of the coupling element layer permits coupling of the optical fibers to the buffer tube without the use of a compressive cushioning layer and yet permits localized movement the optical fibers relative to the buffer tube to account for disparate thermal expansion and to accommodate optical fiber placement. | 04-22-2010 |
| 20100232753 | Coupling Element for Optical Fiber Cables - The present invention relates to a novel coupling composition that is used within optical fiber cables to protect optical fibers and to couple the optical fibers and the surrounding buffer tube casing. The present invention also relates to optical fiber cables that use the novel coupling composition. | 09-16-2010 |
| 20110116753 | Optical-Fiber Cable Having Optical Fibers Adhesively Coupled to Water-Swellable Element - An optical-fiber cable includes an adhesive material that adhesively couples a water-swellable element to a plurality of optical fibers. | 05-19-2011 |