Patents by Inventor Grant Lewis Good

Grant Lewis Good has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Publication number: 20220386521
    Abstract: A system and computer-implemented method for assessing an amount of ash includes an agricultural implement and an ash assessment system. The implement includes a crop processing portion configured to move a cut organic material in a field. The ash assessment system includes an ash sensor configured to determine a measured ash contamination value, a GNSS receiver configured to determine a geolocation, and a processor programmed to perform an ash assessment process. The process includes receiving the measured ash contamination value from the ash sensor and receiving the geolocation data from the GNSS receiver. The geolocation data corresponds to a geolocation of the measured ash contamination value. The process also includes correlating the measured ash contamination value and the geolocation data to one another and storing the measured ash contamination value and the geolocation data in a memory device that is coupled in communication with said processor.
    Type: Application
    Filed: June 6, 2022
    Publication date: December 8, 2022
    Inventors: Jason Wire, Jessica Williamson, Grant Lewis Good
  • Publication number: 20220377983
    Abstract: A harvesting header includes a header frame, rotary cutters carried by the header frame, a gearbox containing at least one gear coupled to each rotary cutter, and an electronic sensor to indicate an amount of oil in the gearbox. Each rotary cutter has a rotating disc with at least one blade for cutting crops. An agricultural vehicle includes a vehicle frame, at least one attached to the vehicle frame, and a harvesting header coupled to the vehicle frame by a plurality of hydraulic cylinders. A method of operating an agricultural vehicle includes adjusting at least one hydraulic cylinder to move a header frame to a known orientation, sensing a position of an oil surface in a gearbox, and determining or indicating an amount of oil in the gearbox based at least in part on the position of the oil surface.
    Type: Application
    Filed: June 8, 2020
    Publication date: December 1, 2022
    Inventors: Friedrich Robert Honeyman, Kevin J. Hamilton, Grant Lewis Good
  • Publication number: 20220201938
    Abstract: A method for assigning information to an identification tag on a bale includes receiving, compressing and shaping crop material into a plurality of formed bales. At least one sensor parameter for the formed bales is detected with at least one sensor. Each bale is wrapped with a binding material and an identification tag is attached to each of the formed bales. A bale ID is created for each of the formed bales. The identification tag on the bale for each bale is assigned to the bale ID. The operator selects to have either the sensor parameter for the tagged bale associated with the bale ID or have a semi-randomized code not containing the sensor parameter associated with the bale ID.
    Type: Application
    Filed: December 23, 2021
    Publication date: June 30, 2022
    Inventors: Kevin J. Hamilton, Emmanuel Regis Magisson, Daniel J. Soldan, Grant Lewis Good, Robert L. Figger, Shane A. Bollinger
  • Patent number: 11361210
    Abstract: A bale identification assembly for use with an agricultural baler (18) includes a first supply roll mounted on the baler providing a binding material (52) used by the knotter system to bind the formed bale, the binding material (52) on the first supply roll comprising identification tags (62) at spaced intervals along the binding material. The bale identification assembly includes a second supply roll mounted on the baler (18) providing a binding material without identification tags, wherein the knotter system combines the binding material with identification tags (62) from the first supply roll with the binding material without identification tags from the second supply roll to bind the formed bale. The bale identification assembly includes a read module with one or more antennas configured to transmit interrogator signals and also receive authentication replies from the identification tags (62).
    Type: Grant
    Filed: March 5, 2018
    Date of Patent: June 14, 2022
    Assignee: AGCO Corporation
    Inventors: Kevin J. Hamilton, Emmanuel Regis Magisson, Daniel Soldan, Grant Lewis Good, Robert L. Figger, Shane A. Bollinger
  • Publication number: 20220167560
    Abstract: A method for identifying the weight of a transportation group of bales includes receiving, compressing and shaping crop material into a plurality of bales, wrapping each bale of the plurality of bales with a binding material and attaching an identification tag to each of the bales. A bale ID is crated for each bale and a weight value for each of the bales is associated with the bale ID of the respective bale. The identification tag on the bale for each bale is assigned to the bale ID. The method reads the identification tag of each of plurality of bales and assigns the plurality of bales to a transportation group with a local bale handling device. The plurality of bales in the transportation group are loaded onto a truck, and the total weight of the transportation group is determined by totaling the weight value of each bale in the transportation group.
    Type: Application
    Filed: August 19, 2021
    Publication date: June 2, 2022
    Inventors: Eric HERBERS, Grant Lewis GOOD, Jason WIRE, Mark GRIGSON
  • Publication number: 20220063617
    Abstract: A system for adjusting a tractor speed based on a performance of a pickup of a baler comprises a flow rate sensor, a processing element, and a tractor speed controller. The flow rate sensor senses a flow rate of a crop into the pickup and outputs a flow rate signal with a level that varies according to the flow rate of the crop into the pickup. The processing element receives the flow rate signal, receives a speed signal regarding a speed of a tractor pulling the baler, compares the flow rate from the flow rate signal with the speed from the speed signal to generate a comparison result, and outputs an electronic speed signal with a level that varies according to the comparison result. The tractor speed controller is configured to receive the speed signal and adjust a speed of the tractor according to the level of the speed signal.
    Type: Application
    Filed: August 25, 2021
    Publication date: March 3, 2022
    Inventors: Grant Lewis Good, Patrick Kendrick, Brian Busenitz, Kevin John Hamilton
  • Publication number: 20220061221
    Abstract: A system for controlling a position of a pickup on a baler comprises a sensor, a processing element, and a pickup pivot mechanism. The sensor monitors a ground area, senses a presence or absence of a windrow, and outputs a sensor signal with a first level and/or data value indicating the presence of the windrow and a second level and/or data value indicating the absence of the windrow. The processing element receives the sensor signal, and outputs a pickup signal with a first level and/or data value when the sensor signal has the first level and/or data value and a second level and/or data value when the sensor signal has the second level and/or data value. The pickup pivot mechanism receives the pickup signal, lowers the pickup when the pickup signal has the first value, and raises the pickup when the pickup signal has the second value.
    Type: Application
    Filed: August 25, 2021
    Publication date: March 3, 2022
    Inventors: Grant Lewis Good, Patrick Kendrick, Brian Busenitz, Kevin Hamilton
  • Patent number: 11089728
    Abstract: A system and computer-implemented method for sensing an amount of free water in cut crop material and automatically adjusting an operating parameter of a mower conditioner to optimize the amount of free water. A sensor located at the exit of a conditioning mechanism measures an actual free water content value of the material as it exits the conditioning mechanism, a processor compares the actual value to maximum and minimum values, and if the actual value is outside this range, automatically adjusts an operating parameter, such as a gap between pairs of conditioning rollers, a pressure exerted by the rollers, or a speed of the mower conditioner, to optimize the actual value. Another sensor may be located at the entrance of the conditioning mechanism. The processor may take into account an operator-selectable value weighting the actual free water content versus a dry down time when adjusting the operating parameter.
    Type: Grant
    Filed: October 17, 2018
    Date of Patent: August 17, 2021
    Assignee: AGCO Corporation
    Inventors: Jason Wire, Dean Morrell, Grant Lewis Good
  • Publication number: 20210127589
    Abstract: A bale identification assembly for use with an agricultural baler having a first supply roll mounted on the baler providing a binding material used by the knotter system to bind the formed bale, wherein the binding material on the first supply roll is free of identification tags. The bale identification assembly includes a second supply roll mounted on the baler providing an identifying filament. The knotter system joins the identifying filament from the second supply roll with the binding material from the first supply roll while tying a knot to bind the formed bale.
    Type: Application
    Filed: May 22, 2019
    Publication date: May 6, 2021
    Inventors: Kevin J. Hamilton, Emmanuel Regis Magisson, Daniel Soldan, Grant Lewis Good, Robert L. Figger, Shane A. Bollinger
  • Patent number: 10949732
    Abstract: A bale identification assembly includes binding material used by a knotter system to bind a formed bale, the binding material including identification tags at spaced intervals along the binding material. A read module transmits interrogator signals and also receives authentication replies from the identification tags. A position sensor is used to predict passage of identification tags through the knotter mechanism and a bale length sensor provides a signal representing bale length. A controller receives signals from the bale length sensor and the position sensor and generates a signal to alter the length of the bale by causing an additional flake to be added to the bale by the plunger or the bale to be finished with fewer flakes to prevent the knotter system from tying a knot in the binding material such that the identification tag is positioned in a portion of the binding material used to form the knot.
    Type: Grant
    Filed: March 5, 2018
    Date of Patent: March 16, 2021
    Assignee: AGCO Corporation
    Inventors: Kevin J. Hamilton, Emmanuel Regis Magisson, Daniel Soldan, Grant Lewis Good, Robert L. Figger, Shane A. Bollinger
  • Publication number: 20210059113
    Abstract: A system (42) and computer-implemented method for sensing an amount of ash in cut crop material and automatically adjusting an operating parameter of a mower conditioner to optimize the amount of ash. A sensor (50) measures an measured ash content value of the crop material after it is cut, a processor (48) compares the actual value to a threshold value, and if the actual value exceeds the threshold value, automatically adjusts an operating parameter, such as a height, angle, or speed at which the crop material is cut, a float pressure of the header (12), or a ground speed of the machine (10). Other sensors (64) may measure a roughness of the cut, an excessive stubble height, or other data relevant to optimizing quality, which may also result in adjustments to the operating parameters. The processor (48) may consider an operator-selectable value weighting the measured ash content versus a speed of operation when adjusting the operating parameter.
    Type: Application
    Filed: December 11, 2018
    Publication date: March 4, 2021
    Applicant: AGCO Corporation
    Inventors: Jason Wire, Dean Morrell, Grant Lewis Good
  • Publication number: 20210037714
    Abstract: A bale identification assembly for use with an agricultural baler (18) includes a first supply roll mounted on the baler providing a binding material (52) used by the knotter system to bind the formed bale, the binding material (52) on the first supply roll comprising identification tags (62) at spaced intervals along the binding material. The bale identification assembly includes a second supply roll mounted on the baler (18) providing a binding material without identification tags, wherein the knotter system combines the binding material with identification tags (62) from the first supply roll with the binding material without identification tags from the second supply roll to bind the formed bale. The bale identification assembly includes a read module with one or more antennas configured to transmit interrogator signals and also receive authentication replies from the identification tags (62).
    Type: Application
    Filed: March 5, 2018
    Publication date: February 11, 2021
    Inventors: Kevin J. Hamilton, Emmanuel Regis Magisson, Daniel Soldan, Grant Lewis Good, Robert L. Figger, Shane A. Bollinger
  • Publication number: 20210022290
    Abstract: A system and computer-implemented method for sensing an amount of free water in cut crop material and automatically adjusting an operating parameter of a mower conditioner to optimize the amount of free water. A sensor located at the exit of a conditioning mechanism measures an actual free water content value of the material as it exits the conditioning mechanism, a processor compares the actual value to maximum and minimum values, and if the actual value is outside this range, automatically adjusts an operating parameter, such as a gap between pairs of conditioning rollers, a pressure exerted by the rollers, or a speed of the mower conditioner, to optimize the actual value. Another sensor may be located at the entrance of the conditioning mechanism. The processor may take into account an operator-selectable value weighting the actual free water content versus a dry down time when adjusting the operating parameter.
    Type: Application
    Filed: October 14, 2020
    Publication date: January 28, 2021
    Inventors: Jason Wire, Dean Morrell, Grant Lewis Good
  • Publication number: 20200375116
    Abstract: A bale identification assembly includes binding material (52) used by a knotter system to bind a formed bale (14), the binding material (52) comprising identification tags (62) at spaced intervals along the binding material. A read module (66) transmits interrogator signals and also receives authentication replies from the identification tags. A position sensor is used to predict passage of identification tags (62) through the knotter mechanism and a bale length sensor provides a signal representing bale length. A controller receives signals from the bale length sensor and the position sensor and generates a signal to alter the length of the bale (14) by causing an additional flake to be added to the bale by the plunger (34) or the bale to be finished with fewer flakes to prevent the knotter system from tying a knot in the binding material such that the identification tag is positioned in a portion of the binding material used to form the knot.
    Type: Application
    Filed: May 5, 2018
    Publication date: December 3, 2020
    Inventors: Kevin J. Hamilton, Emmanuel Regis Magisson, Daniel Soldan, Grant Lewis Good, Robert L. Figger, Shane A. Bollinger
  • Patent number: 10657433
    Abstract: A bale identification assembly has a binding material with identification tags at spaced intervals is used by a knotter system to bind a formed bale. A read module with an antenna transmits interrogator signals and also receives authentication replies from identification tags. The bale identification assembly has a bale drop sensor with a paddle. As a completed bale passes through the discharge chute, the completed bale interacts with the paddle causing the bale drop sensor to activate. Activation of the bale drop sensor activates the antenna for a specified active cycle, and during its active cycle, the read module assigns any identification tag that is sensed to the completed bale that is leaving the discharge chute. A controller receives information from at least one crop sensor and/or bale sensor and associates the information about the completed bale with the identification tag on the completed bale.
    Type: Grant
    Filed: May 13, 2019
    Date of Patent: May 19, 2020
    Assignee: AGCO Corporation
    Inventors: Kevin J. Hamilton, Emmanuel Regis Magisson, Daniel Soldan, Grant Lewis Good, Robert L. Figger, Shane A. Bollinger
  • Publication number: 20200074262
    Abstract: A binding material for binding a bale (14) of crop material has bale (14) identification tags (62) used to identify properties of the bale (14) that is bound by the binding material. The binding material (52) includes at least one strand of a non-identifying filament and one strand of an identifying filament incorporating the identification tag (62). The non-identifying filament and the identifying filament are wound together before the binding material (52) is used to bind the bale. The identifying filament has an RFID inlay having conducting wires of an antenna connected to an RFID chip, with the length of the inlay between 10 and 24 cm. The RFID inlay comprises a segment of the identifying filament with adjacent RFID inlays spaced along the identifying filament at a desired interval. The identifying strand incorporating the RFID inlay is wound during a binding material production process with the at least one non-identifying filament into a single twine strand.
    Type: Application
    Filed: March 5, 2018
    Publication date: March 5, 2020
    Inventors: Kevin J. Hamilton, Emmanuel Regis Magisson, Daniel Soldan, Grant Lewis Good, Robert L. Figger, Shane A. Bollinger
  • Patent number: 10492371
    Abstract: A bale identification assembly for use with an agricultural baler having a first supply roll mounted on the baler providing a binding material used by the knotter system to bind the formed bale, wherein the binding material on the first supply roll is free of identification tags. The bale identification assembly includes a second supply roll mounted on the baler providing an identifying filament. The knotter system joins the identifying filament from the second supply roll with the binding material from the first supply roll while tying a knot to bind the formed bale.
    Type: Grant
    Filed: June 21, 2018
    Date of Patent: December 3, 2019
    Assignee: AGCO Corporation
    Inventors: Kevin J. Hamilton, Emmanuel Regis Magisson, Daniel Soldan, Grant Lewis Good, Robert L. Figger, Shane A. Bollinger
  • Publication number: 20190335662
    Abstract: In one embodiment, a simulation system for adjusting settings of a vehicle having an implement coupled thereto, the simulation system comprising: one or more feedback sensors for detecting physical movement of the implement; and a computing system configured by instructions to: receive predefined simulated inputs corresponding to movement of the implement attached to the vehicle, the simulated inputs being associated with anticipated physical movement of the implement; based on the inputs, provide an output to a control system operably coupled to the implement, the output causing physical movement of the implement based on one or more settings; receive feedback from the one or more feedback sensors indicating movement of the implement responsive to the output; compare physical movement of the implement with the anticipated physical movement associated with the simulated inputs; and in response to detecting a difference between the physical movement of the implement and the anticipated physical movement, cause
    Type: Application
    Filed: April 30, 2019
    Publication date: November 7, 2019
    Inventors: Grant Lewis Good, Jacob van BERGEIJK
  • Publication number: 20190266466
    Abstract: A bale identification assembly has a binding material with identification tags at spaced intervals is used by a knotter system to bind a formed bale. A read module with an antenna transmits interrogator signals and also receives authentication replies from identification tags. The bale identification assembly has a bale drop sensor with a paddle. As a completed bale passes through the discharge chute, the completed bale interacts with the paddle causing the bale drop sensor to activate. Activation of the bale drop sensor activates the antenna for a specified active cycle, and during its active cycle, the read module assigns any identification tag that is sensed to the completed bale that is leaving the discharge chute. A controller receives information from at least one crop sensor and/or bale sensor and associates the information about the completed bale with the identification tag on the completed bale.
    Type: Application
    Filed: May 13, 2019
    Publication date: August 29, 2019
    Inventors: Kevin J. Hamilton, Emmanuel Regis Magisson, Daniel Soldan, Grant Lewis Good, Robert L. Figger, Shane A. Bollinger
  • Patent number: 10303997
    Abstract: A bale identification assembly has a binding material with identification tags at spaced intervals is used by a knotter system to bind a formed bale. A read module with an antenna transmits interrogator signals and also receives authentication replies from identification tags. The bale identification assembly has a bale drop sensor with a paddle. As a completed bale passes through the discharge chute, the completed bale interacts with the paddle causing the bale drop sensor to activate. Activation of the bale drop sensor activates the antenna for a specified active cycle, and during its active cycle, the read module assigns any identification tag that is sensed to the completed bale that is leaving the discharge chute. A controller receives information from at least one crop sensor and/or bale sensor and associates the information about the completed bale with the identification tag on the completed bale.
    Type: Grant
    Filed: March 5, 2018
    Date of Patent: May 28, 2019
    Assignee: AGCO Corporation
    Inventors: Kevin J. Hamilton, Emmanuel Regis Magisson, Daniel Soldan, Grant Lewis Good, Robert L. Figger, Shane A. Bollinger