Robot ball
First Claim
1. A robot ball comprising:
- an encapsulating shell having an axis of rotation and an outer annular tread surface centered on the axis of rotation; and
a drive system encapsulated in the shell and comprising;
a first motorized mechanism having a stator portion and a rotor portion centered on the axis of rotation and connected to the shell;
a counterweight connected to the stator portion and spaced apart from the axis of rotation whereby, due to inertia of the counterweight, rotation of said rotor portion rotates the shell to roll the tread surface on the ground; and
a steering system comprising;
a second motorized, counterweight displacing mechanism through which the counterweight is connected to the stator portion, the second motorized mechanism defining a course of displacement of the counterweight which extends along the axis of rotation whereby, in operation, activation of the second motorized mechanism displaces the counterweight along the axis of rotation, tilts said axis of rotation, displaces the center of gravity of the robot ball, and thereby changes the trajectory of the robot ball.
2 Assignments
0 Petitions
Accused Products
Abstract
The robot ball comprises an encapsulating shell, a drive system and a steering system. The shell has an axis of rotation and an outer annular tread surface centered on the axis of rotation. The drive system is encapsulated in the shell and comprises a first motorized mechanism and a counterweight. The first motorized mechanism has a stator portion and a rotor portion centered on the axis of rotation and connected to the shell. The counterweight is connected to the stator portion and is spaced apart from the axis of rotation whereby, due to inertia of the counterweight, rotation of this rotor portion rotates the shell to roll the tread surface on the ground. The steering system comprises a second motorized mechanism through which the counterweight is connected to the stator portion. This second motorized mechanism includes a pivot assembly having a pivot axis transversal to the axis of rotation. Therefore, activation of the second motorized mechanism rotates the counterweight about the pivot axis, tilts the axis of rotation, displaces the center of gravity of the robot ball, and thereby changes the trajectory of the robot ball. An inclinometer is mounted on the stator portion to measure an inclination of the stator portion about the axis of rotation, and a controller regulates the speed of rotation of the rotor portion in relation to the measured inclination. The robot ball further includes a second inclinometer so mounted on the platform as to measure an inclination about the pivot axis. The controller then controls the electric servomotor in relation to the measured platform inclination about the pivot axis.
127 Citations
23 Claims
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1. A robot ball comprising:
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an encapsulating shell having an axis of rotation and an outer annular tread surface centered on the axis of rotation; and
a drive system encapsulated in the shell and comprising;
a first motorized mechanism having a stator portion and a rotor portion centered on the axis of rotation and connected to the shell;
a counterweight connected to the stator portion and spaced apart from the axis of rotation whereby, due to inertia of the counterweight, rotation of said rotor portion rotates the shell to roll the tread surface on the ground; and
a steering system comprising;
a second motorized, counterweight displacing mechanism through which the counterweight is connected to the stator portion, the second motorized mechanism defining a course of displacement of the counterweight which extends along the axis of rotation whereby, in operation, activation of the second motorized mechanism displaces the counterweight along the axis of rotation, tilts said axis of rotation, displaces the center of gravity of the robot ball, and thereby changes the trajectory of the robot ball. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
the first motorized mechanism comprises at least one electric drive motor having a stator and a rotor;
the stator of the electric motor is secured to the platform;
the rotor of the electric motor is centered on the axis of rotation and is connected to the shell.
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8. A robot ball as recited in claim 6, wherein:
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the first motorized mechanism comprises first and second electric drive motors each having a stator and a rotor;
the stator of the first electric drive motor is secured to the platform;
the stator of the second electric drive motor is secured to the platform;
the rotor of the first electric drive motor is centered on the axis of rotation and is connected a first point of the shell; and
the rotor of the second electric drive motor is centered on the axis of rotation and is connected to a second point of the shell diametrically opposite to the first point of said shell.
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9. A robot ball as recited in claim 2, wherein:
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the stator portion comprises a platform having an underside;
the second motorized mechanism comprises an electric servomotor having a stator and a rotor;
the stator of the electric servomotor is secured to the underside of the platform; and
the rotor of the electric servomotor is centered on the pivot axis and is connected to the counterweight.
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10. A robot ball as recited in claim 1, wherein the counterweight comprises an electric battery.
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11. A robot ball as recited in claim 9, wherein the counterweight comprises an electric battery and a bracket mechanically connecting the battery to the rotor of the servomotor.
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12. A robot ball as recited in claim 7, further comprising an inclinometer so mounted on the platform as to measure an inclination of said platform about the axis of rotation, and a controller of the speed of rotation of said at least one electric drive motor in relation to the measured platform inclination.
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13. A robot ball as recited in claim 8, further comprising an inclinometer so mounted on the platform as to measure an inclination of said platform about the pivot axis, and a controller of the electric servomotor in relation to the measured platform inclination about the pivot axis.
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14. A robot ball as recited in claim 1, further comprising at least one condition sensor and a robot ball controller responsive to said at least one sensor, wherein said robot ball controller comprises a drive and steering systems controller portion.
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15. A robot ball as recited in claim 14, wherein said at least one condition sensor comprises a robot ball spin sensor unit detecting spinning of the robot ball.
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16. A robot ball as recited in claim 14, further comprising a voice message generating system controlled by the robot ball controller.
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17. A robot ball as recited in claim 14, wherein said at least one condition sensor comprises a voice instructions recognizing system.
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18. A robot ball as recited in claim 14, wherein said at least one condition sensor comprises a tactile system.
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19. A robot ball as recited in claim 1, further comprising an obstacle detector and a controller of said second motorized mechanism in response to an obstacle detected by said obstacle detector.
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20. A robot ball as recited in claim 19, wherein the obstacle detector is an infrared obstacle detector comprising at least one infrared beam generator and an infrared beam detector detecting infrared light generated by the infrared beam generator after reflection of said infrared light by an obstacle.
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21. A robot ball as recited in claim 1, further comprising a controller of the drive and steering systems, said controller comprising a generator of various trajectories of the robot ball.
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22. A robot ball comprising:
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an encapsulating shell having an axis of rotation and an outer annular tread surface centered on the axis of rotation; and
a drive system encapsulated in the shell and comprising;
a motorized mechanism having a stator portion and a rotor portion centered on the axis of rotation and connected to the shell;
a counterweight connected to the stator portion and spaced apart from the axis of rotation whereby, due to inertia of the counterweight, rotation of said rotor portion rotates the shell to roll the tread surface on the ground;
an inclinometer so mounted on the stator portion as to measure an inclination of said stator portion about the axis of rotation; and
a controller of the speed of rotation of said rotor portion in relation to the measured inclination. - View Dependent Claims (23)
the stator portion comprises a platform;
said inclinometer is mounted on said platform;
the motorized mechanism comprises at least one electric drive motor having a stator and a rotor;
the stator of the electric drive motor is secured to the platform;
the rotor of the electric drive motor is centered on the axis of rotation and is connected the shell;
the inclinometer is mounted on the platform to measure an inclination of said platform about the axis of rotation; and
said controller is a controller of the speed of rotation of the electric drive motor in relation to the measured platform inclination.
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Specification