Patents by Inventor Brad Pohl
Brad Pohl 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).
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Patent number: 11906018Abstract: A continuous variable planetary (CVP) system includes a CVP hub, which includes a shift mechanism including a shift driver element, and a processing server system to calibrate the CVP system and detect errors within the CVP system. The processing server system performs continuously monitoring or obtaining a transmission speed ratio of the CVP hub. Upon detecting that the transmission speed ratio reaches a particular value, the processing server system records a corresponding position of the shift driver. The processing server system calibrates the CVP system based on the particular value, the corresponding position, and a known relationship between transmission speed ratios and positions of the shift mechanism. The processing server system determines or verifies a full underdrive (FUD) position by iteratively reducing a transmission speed ratio from the particular value until an onset of a backlash condition is detected and determines or verifies a full overdrive (FOD) position.Type: GrantFiled: May 3, 2023Date of Patent: February 20, 2024Assignee: Fallbrook Intellectual Property Company LLCInventors: Marko Matenda, Brad Pohl
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Publication number: 20240011554Abstract: A continuous variable planetary (CVP) system comprises a C2 carrier having a pattern of slots, the slots having one or more slot walls; a C1 carrier, at least one of the C2 carrier or C1 carrier being rotatable relative to the other; at least three planetary assemblies coupled between the C2 carrier and the C1 carrier, each planetary assembly including a planet, a planet axle, and an end cap on at least one end of the planet axle, the end cap disposed within the slot, rotation of C2 carrier relative to the C1 carrier inducing a skew condition in the planet axle and thereby inducing a tilt condition on the planet axle; and a protective layer affixed against at least one of the one or more slot walls, the protective layer including one or more protective layer attachment features configured to attach to one or more slot wall attachment features.Type: ApplicationFiled: July 10, 2023Publication date: January 11, 2024Inventors: Brad Pohl, Siddhesh Ozarkar
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Publication number: 20230375079Abstract: A continuous variable planetary (CVP) system includes a CVP hub, which includes a shift mechanism including a shift driver element, and a processing server system to calibrate the CVP system and detect errors within the CVP system. The processing server system performs continuously monitoring or obtaining a transmission speed ratio of the CVP hub. Upon detecting that the transmission speed ratio reaches a particular value, the processing server system records a corresponding position of the shift driver. The processing server system calibrates the CVP system based on the particular value, the corresponding position, and a known relationship between transmission speed ratios and positions of the shift mechanism. The processing server system determines or verifies a full underdrive (FUD) position by iteratively reducing a transmission speed ratio from the particular value until an onset of a backlash condition is detected and determines or verifies a full overdrive (FOD) position.Type: ApplicationFiled: May 3, 2023Publication date: November 23, 2023Inventors: Marko Matenda, Brad Pohl
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Patent number: 10094453Abstract: Inventive embodiments are directed to components, subassemblies, systems, and/or methods for infinitely variable transmissions (IVT) having a variator provided with a plurality of tilting spherical planets. In one embodiment, a variator is provided with multiple planet arrays. In another embodiment, a hydraulic system is configured to control the transmission ratio of the IVT. Various inventive idler assemblies and planet-pivot arm assemblies can be used to facilitate adjusting the transmission speed ratio of an IVT. Embodiments of a transmission housing and bell housing are adapted to house components of an IVT and, in some embodiments, to cooperate with other components of the IVT to support operation and/or functionality of the IVT. Various related devices include embodiments of, for example, a control feedback mechanism, axial force generation and management mechanisms, a control valve integral with an input shaft, and a rotatable carrier configured to support planet-pivot arm assemblies.Type: GrantFiled: January 15, 2016Date of Patent: October 9, 2018Assignee: Fallbrook Intellectual Property Company LLCInventors: Jeremy Carter, Charles Lohr, Brad Pohl, Daniel J. Dawe
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Publication number: 20160131231Abstract: Inventive embodiments are directed to components, subassemblies, systems, and/or methods for infinitely variable transmissions (IVT) having a variator provided with a plurality of tilting spherical planets. In one embodiment, a variator is provided with multiple planet arrays. In another embodiment, a hydraulic system is configured to control the transmission ratio of the IVT. Various inventive idler assemblies and planet-pivot arm assemblies can be used to facilitate adjusting the transmission speed ratio of an IVT. Embodiments of a transmission housing and bell housing are adapted to house components of an IVT and, in some embodiments, to cooperate with other components of the IVT to support operation and/or functionality of the IVT. Various related devices include embodiments of, for example, a control feedback mechanism, axial force generation and management mechanisms, a control valve integral with an input shaft, and a rotatable carrier configured to support planet-pivot arm assemblies.Type: ApplicationFiled: January 15, 2016Publication date: May 12, 2016Inventors: Jeremy Carter, Charles Lohr, Brad Pohl, Daniel J. Dawe
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Patent number: 9239099Abstract: Inventive embodiments are directed to components, subassemblies, systems, and/or methods for infinitely variable transmissions (IVT) having a variator provided with a plurality of tilting spherical planets. In one embodiment, a variator is provided with multiple planet arrays. In another embodiment, a hydraulic system is configured to control the transmission ratio of the IVT. Various inventive idler assemblies and planet-pivot arm assemblies can be used to facilitate adjusting the transmission speed ratio of an IVT. Embodiments of a transmission housing and bell housing are adapted to house components of an IVT and, in some embodiments, to cooperate with other components of the IVT to support operation and/or functionality of the IVT. Various related devices include embodiments of, for example, a control feedback mechanism, axial force generation and management mechanisms, a control valve integral with an input shaft, and a rotatable carrier configured to support planet-pivot arm assemblies.Type: GrantFiled: November 15, 2013Date of Patent: January 19, 2016Assignee: Fallbrook Intellectual Property Company LLCInventors: Jeremy Carter, Charles Lohr, Brad Pohl, Daniel J. Dawe
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Patent number: 8888643Abstract: Disclosed embodiments are directed to components, subassemblies, systems, and/or methods for continuously variable transmissions (CVT). In one embodiment, a CVT has a number of spherical planets in contact with an idler. Various idler assemblies can be used to facilitate to improve durability, fatigue life, and efficiency of a CVT. In one embodiment, the idler assembly has two rolling elements having contact surfaces that are angled with respect to a longitudinal axis of the CVT. In some embodiments, a bearing is operably coupled between the first and second rolling elements. The bearing is configured to balance axial force between the first and second rolling elements. In one embodiment, the bearing is a ball bearing. In another embodiment, the bearing is an angular contact bearing. In yet other embodiments, needle roller bearings are employed.Type: GrantFiled: November 3, 2011Date of Patent: November 18, 2014Assignee: Fallbrook Intellectual Property Company LLCInventors: Charles B Lohr, Brad Pohl
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Publication number: 20140073470Abstract: Inventive embodiments are directed to components, subassemblies, systems, and/or methods for infinitely variable transmissions (IVT) having a variator provided with a plurality of tilting spherical planets. In one embodiment, a variator is provided with multiple planet arrays. In another embodiment, a hydraulic system is configured to control the transmission ratio of the IVT. Various inventive idler assemblies and planet-pivot arm assemblies can be used to facilitate adjusting the transmission speed ratio of an IVT. Embodiments of a transmission housing and bell housing are adapted to house components of an IVT and, in some embodiments, to cooperate with other components of the IVT to support operation and/or functionality of the IVT. Various related devices include embodiments of, for example, a control feedback mechanism, axial force generation and management mechanisms, a control valve integral with an input shaft, and a rotatable carrier configured to support planet-pivot arm assemblies.Type: ApplicationFiled: November 15, 2013Publication date: March 13, 2014Applicant: Fallbrook Intellectual Property Company LLCInventors: Jeremy Carter, Charles Lohr, Brad Pohl, Daniel J. Dawe
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Patent number: 8585528Abstract: Inventive embodiments are directed to components, subassemblies, systems, and/or methods for infinitely variable transmissions (IVT) having a variator provided with a plurality of tilting spherical planets. In one embodiment, a variator is provided with multiple planet arrays. In another embodiment, a hydraulic system is configured to control the transmission ratio of the IVT. Various inventive idler assemblies and planet-pivot arm assemblies can be used to facilitate adjusting the transmission speed ratio of an IVT. Embodiments of a transmission housing and bell housing are adapted to house components of an IVT and, in some embodiments, to cooperate with other components of the IVT to support operation and/or functionality of the IVT. Various related devices include embodiments of, for example, a control feedback mechanism, axial force generation and management mechanisms, a control valve integral with an input shaft, and a rotatable carrier configured to support planet-pivot arm assemblies.Type: GrantFiled: November 16, 2012Date of Patent: November 19, 2013Assignee: Fallbrook Intellectual Property Company LLCInventors: Jeremy Carter, Charles Lohr, Brad Pohl, Daniel J. Dawe
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Patent number: 8313404Abstract: Inventive embodiments are directed to components, subassemblies, systems, and/or methods for infinitely variable transmissions (IVT) having a variator provided with a plurality of tilting spherical planets. In one embodiment, a variator is provided with multiple planet arrays. In another embodiment, a hydraulic system is configured to control the transmission ratio of the IVT. Various inventive idler assemblies and planet-pivot arm assemblies can be used to facilitate adjusting the transmission speed ratio of an IVT. Embodiments of a transmission housing and bell housing are adapted to house components of an IVT and, in some embodiments, to cooperate with other components of the IVT to support operation and/or functionality of the IVT. Various related devices include embodiments of, for example, a control feedback mechanism, axial force generation and management mechanisms, a control valve integral with an input shaft, and a rotatable carrier configured to support planet-pivot arm assemblies.Type: GrantFiled: February 14, 2008Date of Patent: November 20, 2012Assignee: Fallbrook Intellectual Property Company LLCInventors: Jeremy Carter, Charles Lohr, Brad Pohl, Daniel J. Dawe
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Publication number: 20120115667Abstract: Disclosed embodiments are directed to components, subassemblies, systems, and/or methods for continuously variable transmissions (CVT). In one embodiment, a CVT has a number of spherical planets in contact with an idler. Various idler assemblies can be used to facilitate to improve durability, fatigue life, and efficiency of a CVT. In one embodiment, the idler assembly has two rolling elements having contact surfaces that are angled with respect to a longitudinal axis of the CVT. In some embodiments, a bearing is operably coupled between the first and second rolling elements. The bearing is configured to balance axial force between the first and second rolling elements. In one embodiment, the bearing is a ball bearing. In another embodiment, the bearing is an angular contact bearing. In yet other embodiments, needle roller bearings are employed.Type: ApplicationFiled: November 3, 2011Publication date: May 10, 2012Applicant: Fallbrook Technologies Inc.Inventors: Charles Lohr, Brad Pohl
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Publication number: 20100093476Abstract: Inventive embodiments are directed to components, subassemblies, systems, and/or methods for infinitely variable transmissions (IVT) having a variator provided with a plurality of tilting spherical planets. In one embodiment, a variator is provided with multiple planet arrays. In another embodiment, a hydraulic system is configured to control the transmission ratio of the IVT. Various inventive idler assemblies and planet-pivot arm assemblies can be used to facilitate adjusting the transmission speed ratio of an IVT. Embodiments of a transmission housing and bell housing are adapted to house components of an IVT and, in some embodiments, to cooperate with other components of the IVT to support operation and/or functionality of the IVT. Various related devices include embodiments of, for example, a control feedback mechanism, axial force generation and management mechanisms, a control valve integral with an input shaft, and a rotatable carrier configured to support planet-pivot arm assemblies.Type: ApplicationFiled: February 14, 2008Publication date: April 15, 2010Applicant: FALLBROOK TECHNOLOGIES INC.Inventors: Jeremy Carter, Charles Lohr, Brad Pohl, Daniel J. Dawe
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Publication number: 20100093479Abstract: Inventive embodiments are directed to components, subassemblies, systems, and/or methods for continuously variable transmissions (CVT) having a variator provided with a plurality of tilting, traction planets and traction rings. In one embodiment, a variator is coupled to a rangebox to provide multiple operating modes. In another embodiment, a hydraulic system is configured to control the transmission ratio of the variator and the rangebox. Various inventive shift-cam-and-sun subassemblies can be used to facilitate shifting of the transmission ratio of a CVT. Embodiments of a transmission housing and bell housing are adapted to house components of a CVT and, in some embodiments, to cooperate with other components of the CVT to support operation and/or functionality of the CVT.Type: ApplicationFiled: February 7, 2008Publication date: April 15, 2010Applicant: FALLBROOK TECHNOLOGIES INC.Inventors: Jeremy Carter, Charles Lohr, Brad Pohl, David Kieke
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Publication number: 20080039273Abstract: A continuously variable transmission (CVT) having a main shaft configured to support and position various components of the CVT. Shift cam discs cooperate with ball-leg assemblies to shift the transmission ration of the CVT. Load cam discs, a torsion disc, rolling elements, and a hub cap shell are configured to generate axial force, transmit torque, and manage reaction forces. In one embodiment, a splined input shaft and a torsion disc having a splined bore cooperate to input torque into the variator of the CVT. Among other things, various ball axles, axle-ball combinations, and reaction force grounding configurations are disclosed. In one embodiment, a CVT having axial force generation means at both the input and output elements is disclosed.Type: ApplicationFiled: August 20, 2007Publication date: February 14, 2008Applicant: FALLBROOK TECHNOLOGIES INC.Inventors: Robert Smithson, Brad Pohl, Oronde Armstrong, Donald Miller, Daniel Dawe, Fernand Thomassy, Matthew Simister, Wesley Poth, Jon Nichols, Charles Lohr
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Publication number: 20080040008Abstract: A continuously variable transmission (CVT) having a main shaft configured to support and position various components of the CVT. Shift cam discs cooperate with ball-leg assemblies to shift the transmission ration of the CVT. Load cam discs, a torsion disc, rolling elements, and a hub cap shell are configured to generate axial force, transmit torque, and manage reaction forces. In one embodiment, a splined input shaft and a torsion disc having a splined bore cooperate to input torque into the variator of the CVT. Among other things, various ball axles, axle-ball combinations, and reaction force grounding configurations are disclosed. In one embodiment, a CVT having axial force generation means at both the input and output elements is disclosed.Type: ApplicationFiled: August 20, 2007Publication date: February 14, 2008Applicant: FALLBROOK TECHNOLOGIES INC.Inventors: Robert Smithson, Brad Pohl, Oronde Armstrong, Donald Miller, Daniel Dawe, Fernand Thomassy, Mathew Simister, Wesley Poth, Jon Nichols, Charles Lohr
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Publication number: 20080039275Abstract: A continuously variable transmission (CVT) having a main shaft configured to support and position various components of the CVT. Shift cam discs cooperate with ball-leg assemblies to shift the transmission ration of the CVT. Load cam discs, a torsion disc, rolling elements, and a hub cap shell are configured to generate axial force, transmit torque, and manage reaction forces. In one embodiment, a splined input shaft and a torsion disc having a splined bore cooperate to input torque into the variator of the CVT. Among other things, various ball axles, axle-ball combinations, and reaction force grounding configurations are disclosed. In one embodiment, a CVT having axial force generation means at both the input and output elements is disclosed.Type: ApplicationFiled: August 20, 2007Publication date: February 14, 2008Applicant: FALLBROOK TECHNOLOGIES INC.Inventors: Robert Smithson, Brad Pohl, Oronde Armstrong, Donald Miller, Daniel Dawe, Fernand Thomassy, Matthew Simister, Wesley Poth, Jon Nichols, Charles Lohr
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Publication number: 20080039271Abstract: A continuously variable transmission (CVT) having a main shaft configured to support and position various components of the CVT. Shift cam discs cooperate with ball-leg assemblies to shift the transmission ration of the CVT. Load cam discs, a torsion disc, rolling elements, and a hub cap shell are configured to generate axial force, transmit torque, and manage reaction forces. In one embodiment, a splined input shaft and a torsion disc having a splined bore cooperate to input torque into the variator of the CVT. Among other things, various ball axles, axle-ball combinations, and reaction force grounding configurations are disclosed. In one embodiment, a CVT having axial force generation means at both the input and output elements is disclosed.Type: ApplicationFiled: August 20, 2007Publication date: February 14, 2008Applicant: FALLBROOK TECHNOLOGIES INC.Inventors: Robert Smithson, Brad Pohl, Oronde Armstrong, Donald Miller, Daniel Dawe, Fernand Thomassy, Mathew Simister, Wesley Poth, Jon Nichols, Charles Lohr
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Publication number: 20080034585Abstract: A continuously variable transmission (CVT) having a main shaft configured to support and position various components of the CVT. Shift cam discs cooperate with ball-leg assemblies to shift the transmission ration of the CVT. Load cam discs, a torsion disc, rolling elements, and a hub cap shell are configured to generate axial force, transmit torque, and manage reaction forces. In one embodiment, a splined input shaft and a torsion disc having a splined bore cooperate to input torque into the variator of the CVT. Among other things, various ball axles, axle-ball combinations, and reaction force grounding configurations are disclosed. In one embodiment, a CVT having axial force generation means at both the input and output elements is disclosed.Type: ApplicationFiled: August 20, 2007Publication date: February 14, 2008Applicant: FALLBROOK TECHNOLOGIES INC.Inventors: Robert Smithson, Brad Pohl, Oronde Armstrong, Donald Miller, Daniel Dawe, Fernand Thomassy, Matthew Simister, Wesley Poth, Jon Nichols, Charles Lohr
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Publication number: 20080039277Abstract: A continuously variable transmission (CVT) having a main shaft configured to support and position various components of the CVT. Shift cam discs cooperate with ball-leg assemblies to shift the transmission ration of the CVT. Load cam discs, a torsion disc, rolling elements, and a hub cap shell are configured to generate axial force, transmit torque, and manage reaction forces. In one embodiment, a splined input shaft and a torsion disc having a splined bore cooperate to input torque into the variator of the CVT. Among other things, various ball axles, axle-ball combinations, and reaction force grounding configurations are disclosed. In one embodiment, a CVT having axial force generation means at both the input and output elements is disclosed.Type: ApplicationFiled: August 20, 2007Publication date: February 14, 2008Applicant: FALLBROOK TECHNOLOGIES INC.Inventors: Robert Smithson, Brad Pohl, Oronde Armstrong, Donald Miller, Daniel Dawe, Fernand Thomassy, Matthew Simister, Wesley Poth, Jon Nichols, Charles Lohr
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Publication number: 20080034586Abstract: A continuously variable transmission (CVT) having a main shaft configured to support and position various components of the CVT. Shift cam discs cooperate with ball-leg assemblies to shift the transmission ration of the CVT. Load cam discs, a torsion disc, rolling elements, and a hub cap shell are configured to generate axial force, transmit torque, and manage reaction forces. In one embodiment, a splined input shaft and a torsion disc having a splined bore cooperate to input torque into the variator of the CVT. Among other things, various ball axles, axle-ball combinations, and reaction force grounding configurations are disclosed. In one embodiment, a CVT having axial force generation means at both the input and output elements is disclosed.Type: ApplicationFiled: August 20, 2007Publication date: February 14, 2008Applicant: FALLBROOK TECHNOLOGIES INC.Inventors: Robert Smithson, Brad Pohl, Oronde Armstrong, Donald Miller, Daniel Dawe, Fernand Thomassy, Mathew Simister, Wesley Poth, Jon Nichols, Charles Lohr