Abstract: Techniques are disclosed for exploiting modern controls, sensors and actuators to realize a novel family of in-line two-wheeled vehicles (Twills) as robots. Each robot has a front-wheel with a substantially horizontal axis of rotation and a substantially vertical steering axis. The front-wheel with its substantially vertical steering axis has a steering-angle that can be sensed by one or more sensors. There is a rear-wheel with a substantially horizontal axis of rotation. A control module stabilizes the roll angle when the robot is in a forward motion as well as when it is substantially or fully stopped. One or both the wheels of the robot may be endowed by a steering motor for steering and a traction motor for providing traction/torque to the wheel.
Type:
Grant
Filed:
June 13, 2022
Date of Patent:
September 30, 2025
Assignee:
TWILL Technology, Inc.
Inventors:
Christopher Andrew Tacklind, Cameron Tacklind
Abstract: A family of vehicles is presented which exploit dynamic controls to stabilize in-line two wheeled vehicles. The stabilization results in improved safety at high speeds and on uncooperative surfaces. Stabilization affords balance at zero speed without auxiliary support means. Transformational wheel base length affords high visibility at low speeds and low drag at high speeds. In wheel chair configurations transforming wheel base length allows navigation up and down stairs.
Type:
Grant
Filed:
October 14, 2021
Date of Patent:
July 23, 2024
Assignee:
TWILL Technology, Inc.
Inventors:
Christopher Tacklind, Cameron Tacklind, Blake Tacklind, Daniel Shaffer, Nelson Au
Abstract: Techniques are disclosed for exploiting modern controls, sensors and actuators to realize a novel family of in-line two-wheeled vehicles (Twills) as robots. Each robot has a front-wheel with a substantially horizontal axis of rotation and a substantially vertical steering axis. The front-wheel with its substantially vertical steering axis has a steering-angle that can be sensed by one or more sensors. There is a rear-wheel with a substantially horizontal axis of rotation. A control module stabilizes the roll angle when the robot is in a forward motion or when it is stopped. There is an energy source to power the controls and to drive one or both the front and rear wheels.
Type:
Grant
Filed:
June 15, 2020
Date of Patent:
July 19, 2022
Assignee:
TWILL Technology, Inc.
Inventors:
Christopher Andrew Tacklind, Cameron Tacklind