A controller for a software driven processor, like a video game, having a handlebar clip. The controller includes two arcuate segments connected by a leaf spring to form a C-shaped spring jaw. A multimodal controller segment has a data input device pivotally coupled to one of the segments. The sprin
A controller for a software driven processor, like a video game, having a handlebar clip. The controller includes two arcuate segments connected by a leaf spring to form a C-shaped spring jaw. A multimodal controller segment has a data input device pivotally coupled to one of the segments. The spring jaw can clip to a handlebar of an exercise device, like an exercise bicycle. The spring jaw may include a micro-USB jack to connect to a wired controller housing for conventional play and to recharge the controller's battery.
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1. A controller for a software driven processor comprising: an articulating controller having: a first arcuate segment having a first data input device;a second arcuate segment connected by a leaf spring to said first arcuate segment to form a C-shaped spring jaw with said leaf spring biasing said a
1. A controller for a software driven processor comprising: an articulating controller having: a first arcuate segment having a first data input device;a second arcuate segment connected by a leaf spring to said first arcuate segment to form a C-shaped spring jaw with said leaf spring biasing said arcuate segments toward each other;a multimodal controller segment having a second data input device pivotally coupled to said second arcuate segment; anda wireless transmitter coupled to said data input devices and disposed within one of said multimodal controller segment or said arcuate segments. 2. The controller of claim 1, wherein said pivotal coupling between said multimodal controller segment and said second arcuate segment comprises a hinge oriented orthogonal to said leaf spring. 3. The controller of claim 2, wherein said arcuate segments and said leaf spring reside in a first plane, and wherein said multimodal controller segment pivots between a first orientation parallel to said first plane and a second orientation perpendicular to said first plane. 4. The controller of claim 3, wherein said arcuate segments can resiliently flex away from each other to pass over a cylindrical bar then bias toward each other to capture the cylindrical bar within said C-shaped spring jaw. 5. The controller of claim 4, wherein said C-shaped spring jaw is adapted to clip onto a handlebar of exercise equipment. 6. The controller of claim 5, wherein said multimodal controller segment is adapted to be supported against a first side of the handlebar facing a user, so that as a user grabs the handlebar their thumb lies over said second data input device. 7. The controller of claim 6, wherein said second data input device is selected from the group consisting of a button, a maintained contact button, a momentary contact button, a directional pushbutton, an analog joystick, a 4-button d-pad, a trackball, and combinations thereof. 8. The controller of claim 5, wherein said first arcuate segment is adapted to be supported against a second side of the handlebar facing away from a user, so that as a user grabs the handlebar their index finger lies over said first data input device. 9. The controller of claim 5, wherein said first arcuate segment includes a third data input device, wherein said first and third data input devices comprising buttons, wherein said first arcuate segment is adapted to be supported against a second side of the handlebar facing away from a user, so that as a user grabs the handlebar their index and middle fingers lie over said two buttons. 10. The controller of claim 1, wherein the software driven processor is selected from the group consisting of a game console, a tablet and a personal computer. 11. The controller of claim 1, further comprising a main controller housing having a docking station, wherein one of said arcuate segments or multimodal controller segment includes a jack for plugging into said docking station for at least one of wired communication and battery recharging. 12. The controller of claim 11, wherein said jack resides on one of said arcuate segments and first data wires extend from said multimodal controller segment through said pivotal coupling to said second arcuate segment. 13. The controller of claim 11, wherein said jack resides on one of said arcuate segments and second data wires extend from said first arcuate segment to said second arcuate segment. 14. The controller of claim 11, wherein said main controller housing has two docking stations to receive two articulating controllers disposed at the right and left hand sides of said main controller housing for integrated cooperative play. 15. The controller of claim 14, wherein said data input device is selected from the group consisting of a button, a maintained contact button, a momentary contact button, a directional pushbutton, an analog joystick, a 4-button d-pad, a trackball, and combinations thereof. 16. The controller of claim 15, wherein said two articulating controllers are adapted for undocking from said main controller housing and for mounting on the right and left handlebars of exercise equipment to provide the user with remote cooperative player control.
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이 특허에 인용된 특허 (10)
Rice, Michael Joseph Patrick, Controller for an exercise bicycle.
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