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Edler
Andrew Nathan Edler, Homer, MI US
| Patent application number | Description | Published |
|---|---|---|
| 20100251706 | HYDRAULIC COUPLING HAVING SELF-ADJUSTING ANTI-ROTATION HYDRAULIC FLUID PATH - A hydraulic coupling for use in a vehicle drive train having a fluid path which extends between the housing of the hydraulic coupling and a coupling mechanism. The fluid path includes a first aperture formed in the housing with a first diameter and a longitudinal axis, as well as a second aperture formed in the coupling mechanism. A rigid conduit extends between the first and second apertures with a first portion having a diameter that is less than the first diameter of the first aperture so as to define an adjustment gap that allows the rigid conduit to move out of alignment with the longitudinal axis in response to misalignment between the first and second apertures. In addition, the rigid conduit provides resistance to torque imposed upon the coupling mechanism. | 10-07-2010 |
Brad A. Edler, Waterloo, IL US
| Patent application number | Description | Published |
|---|---|---|
| 20090312913 | STEERING SYSTEM HAVING MULTIPLE STRATEGIES AND VARIABLE DEADZONE - A steering system for a machine having at least one steerable traction device is disclosed. The steering system may have a steering actuator operatively connected to the at least one steerable traction device, and a travel speed sensor configured to generate a signal indicative of a travel speed of the machine. The steering mechanism may also have an operator input device having a deadzone. The deadzone may vary in response to the signal. The steering system may also have a controller in communication with the steering actuator, the operator input device, and the travel speed sensor. The controller may be configured to affect operation of the steering actuator in response to operation of the operator input device only when the operation of the operator input device deviates from the deadzone. | 12-17-2009 |
| 20110035112 | STEERING SYSTEM HAVING MULTIPLE STRATEGIES AND VARIABLE DEADZONE - A steering system for a machine having at least one steerable traction device is disclosed. The steering system may have a steering actuator operatively connected to the at least one steerable traction device, and a travel speed sensor configured to generate a signal indicative of a travel speed of the machine. The steering mechanism may also have an operator input device having a deadzone. The deadzone may vary in response to the signal. The steering system may also have a controller in communication with the steering actuator, the operator input device, and the travel speed sensor. The controller may be configured to affect operation of the steering actuator in response to operation of the operator input device only when the operation of the operator input device deviates from the deadzone. | 02-10-2011 |
Daniel Edler, Sandviken SE
| Patent application number | Description | Published |
|---|---|---|
| 20100150672 | CUTTING INSERT KIT, METHOD FOR MANUFACTURING CUTTING INSERTS AND A CUTTING INSERT FOR A CUTTING INSERT KIT - A cutting insert kit, including a base part formed of a brittle and wear-resistant material, and a plurality of cutting insert blanks integrally formed with the base part, which are separable one by one from the base part via indications of fracture. Each insert blank includes a front end portion, a rear end portion, an upper side, an under side, and at least one cutting edge in the front end portion formed between a clearance surface and one of the upper and under sides. The base part is common to all cutting insert blanks and to which each cutting insert blank is united to the base part via an indication of fracture in the form of a weakened connection member between the base part and the rear end portion of the cutting insert blank. | 06-17-2010 |
| 20100329800 | TOOL FOR CHIP REMOVING MACHINING AS WELL AS A SOLID INDEXABLE CUTTING INSERT AND A SOLID BASIC BODY THEREFOR - A tool for chip removing machining, including a basic body having an insert seat, and an indexable cutting insert fixed in the seat. The insert includes an upperside, an underside, a pair of side contact surfaces, two cutting edges that individually extend along a chip surface included in one of the upperside and underside, at least two heads that are spaced-apart via an intermediate part and individually include a front portion having at least one cutting edge and a rear portion along which the pair of side contact surfaces are formed. The insert seat of the basic body includes a central hollow space, and a front cavity and at least one rear cavity in which the heads of the cutting insert are housed, the front cavity including a pair of side support surfaces against which the pair of side contact surfaces of the cutting insert are pressed when a tightening element pulls the head rearward toward the side support surfaces. The basic body is solid by being formed integrally of steel material. The seat is countersunk in the basic body such that the side support surfaces are integrated in the steel material. The cutting insert is formed integrally from a second, hard-wearing material having at least the same hardness as cemented carbide, the pair of side contact surfaces of the insert being integrated in the second material. | 12-30-2010 |
Gerhard Edler, Trebur DE
| Patent application number | Description | Published |
|---|---|---|
| 20100139855 | POLYMERS HAVING A HIGH INFRARED ABSORPTION CAPACITY - The present invention relates to polymers comprising absorption pigments, which are distinguished by the fact that they have high absorption in the near IR region, and to the use thereof, in particular in thermoforming and in IR light welding. | 06-10-2010 |
Jon Elliot Edler, San Diego, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20090209731 | Heteromeric taste receptors - Heteromeric taste receptors are provided. These receptors comprise a first polypeptide containing extracellular domains and transmembrane domains wherein the extracellular domains are at least 95% identical to the extracellular domains of specific T1R1 polypeptides and the transmembrane domains are at least 95% identical to the corresponding transmembrane domains of the specific T1R1 polypeptide or a different GPCR; and a second polypeptide comprising extracellular and transmembrane domains wherein the extracellular domains are at least 95% identical to the extracellular domains of specific T1R3 polypeptides and the transmembrane domains are at least 95% identical to the corresponding transmembrane domains of the specific T1R3 polypeptide or a different GPCR. | 08-20-2009 |