최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
|
출원번호 | US-0719784 (2012-12-19) |
등록번호 | US-8839477 (2014-09-23) |
발명자 / 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 14 인용 특허 : 639 |
An autonomous coverage robot includes a chassis having forward and rearward portions and a drive system carried by the chassis. The forward portion of the chassis defines a substantially rectangular shape. The robot includes a cleaning assembly mounted on the forward portion of the chassis and a bin
An autonomous coverage robot includes a chassis having forward and rearward portions and a drive system carried by the chassis. The forward portion of the chassis defines a substantially rectangular shape. The robot includes a cleaning assembly mounted on the forward portion of the chassis and a bin disposed adjacent the cleaning assembly and configured to receive debris agitated by the cleaning assembly. A bin cover is pivotally attached to a lower portion of the chassis and configured to rotate between a first, closed position providing closure of an opening defined by the bin and a second, open position providing access to the bin opening. The robot includes a body attached to the chassis and a handle disposed on an upper portion of the body. A bin cover release is actuatable from substantially near the handle.
1. An autonomous coverage robot comprising: a chassis having forward and rearward portions, when viewed from above an outer peripheral shape of the forward portion defining a substantially rectangular shape and an outer peripheral shape of the rear-ward portion defining an arcuate shape;a drive syst
1. An autonomous coverage robot comprising: a chassis having forward and rearward portions, when viewed from above an outer peripheral shape of the forward portion defining a substantially rectangular shape and an outer peripheral shape of the rear-ward portion defining an arcuate shape;a drive system carried by the chassis configured to maneuver the robot over a cleaning surface;right and left differentially driven drive wheels;a cleaning assembly mounted on the forward portion of the chassis; andbump sensors disposed at the forward corners of the chassis, with at least one bump sensor disposed on each side of each corner such that bump sensors on a lateral side of the robot detect bumps independently of bump sensors on a front side of the robot, thus allowing the robot to determine a direction and/or location of a collision. 2. The autonomous coverage robot of claim 1, wherein the rearward portion has a semi-circular profile defined by a profile circle that extends into the forward portion and has a center axis. 3. The autonomous coverage robot of claim 2, wherein the right and left drive wheels are positioned on or near the center axis of the profile circle such that the robot can turn in place without catching the rearward portion of the chassis on an obstacle. 4. The autonomous coverage robot of claim 3, wherein sides of the bumper are flat to allow the robot to skim along a wall. 5. The autonomous coverage robot of claim 1, comprising a bumper flexibly coupled to the chassis by one or more elastic elements, wherein the bump sensors are configured to detect movement of the bumper. 6. The autonomous coverage robot of claim 5, wherein the bumper covers a front portion and side portions of the forward portion of the chassis, and the bump sensors are configured to detect movement of the bumper in a direction normal to the front portion and in a direction normal to the side portions. 7. The autonomous coverage robot of claim 1, wherein the robot is configured to assume that an object it has bumped into is a wall and turn to follow the wall; and wherein the robot is configured to, after turning, drive straight along the wall and slightly turns into the wall so as to skim along the wall. 8. The autonomous coverage robot of claim 1 comprising a proximity sensor, wherein the robot is configured to semi-passively wall follow including: detecting an object, assumed to be a wall, by either the bump sensor or the proximity sensor,turning to align the dominant side of the robot with the assumed wall,driving along the wall while turning slightly into the wall so as to skim along the wall,maintaining contact with the wall by sensing contact with the wall via the bump sensor or the proximity sensor. 9. The autonomous coverage robot of claim 1, wherein a power source, preferably a battery, is positioned between the right and left drive wheels to place the center of gravity of the robot forward of a first transverse axis defined by the right and left drive wheels. 10. The autonomous coverage robot of claim 1, wherein the robot has a navigational sensor system in communication with the controller that allows the robot to be aware of its surroundings and environment and react in prescribed manners or behaviors according to its sensed perception of its surroundings and environment, the navigational sensor system including one or more cliff sensors, a stasis detector, a proximity sensor, the bump sensors, and/or an omni-directional receiver. 11. The autonomous coverage robot of claim 10, wherein the stasis detector indicates whether the robot is moving or stationary. 12. The autonomous coverage robot of claim 10, wherein the stasis detector includes a stasis wheel with a magnet either embedded in or disposed on the wheel; andthe stasis wheel acts as a third wheel. 13. The autonomous coverage robot of claim 1, comprising at least one forward cliff sensor carried by the forward portion and arranged substantially near a front edge of the forward portion, the at least one forward cliff sensor configured to detect a potential cliff forward of the robot, wherein the drive system is configured to alter a drive direction in response to a signal received from the forward cliff sensor; andat least one rearward cliff sensor carried by a rearward portion and arranged substantially near the rear edge of the rearward portion, the at least one rearward cliff sensor responsive to a potential cliff rearward of the robot, the drive system configured to alter a drive direction in response to a signal received from the rearward cliff sensor. 14. The autonomous coverage robot of claim 1, wherein 1 the drive system is carried by the rearward portion of the chassis and includes right and left drive wheels differentially driven by corresponding right and left motors, and the autonomous coverage robot further includes a controller in communication with the drive system, the controller configured to maneuver the robot to pivot in place; andan accelerometer in communication with the controller, the controller controlling the drive system in response to a signal received from the accelerometer. 15. The autonomous coverage robot of claim 14, wherein the cleaning assembly comprises a roller brush rotatably mounted substantially near a front edge of the chassis. 16. The autonomous coverage robot of claim 14, wherein the controller is configured to alter a drive direction of the robot in response to a signal received from the accelerometer indicating an abrupt speed change. 17. The autonomous coverage robot of claim 14, wherein the controller is configured to alter a drive direction of the robot in response to a signal received from the accelerometer indicating stasis of the robot. 18. The autonomous coverage robot of claim 14, wherein the controller is configured to reduce a drive speed of the robot in response to a signal received from the accelerometer indicating a maximum speed. 19. The autonomous coverage robot of claim 18, wherein the maximum speed is between about 200 mm/s and about 400 mm/s. 20. The autonomous coverage robot of claim 1, wherein the bump sensor comprises four detectors arranged in a rectangular configuration with respect to each other. 21. The autonomous coverage robot of claim 1, further comprising a bumper guide configured to confine body movements to along two directions. 22. The autonomous coverage robot of claim 1, wherein the right and left drive wheels are disposed less than 9 cm rearward of the cleaning assembly. 23. The autonomous coverage robot of claim 1, comprising at least one proximity sensor carried by a dominant side of the robot, the at least one proximity sensor responsive to an obstacle substantially near the chassis, the controller configured to alter a drive direction in response to a signal received from the at least one proximity sensor. 24. The autonomous coverage robot of claim 1, comprising right and left front cliff sensors disposed at the respective right and left corners of the forward portion of the chassis, the right and left front cliff sensors responsive to a potential cliff forward of the robot, the drive system configured to alter a drive direction in response to a signal received from the right and left front cliff sensors indicating a potential cliff. 25. The autonomous coverage robot of claim 1, wherein the cleaning assembly comprises a roller brush rotatably mounted within the chassis along a front edge of the chassis, anda side brush mounted adjacent to the front edge so as to extend beyond the chassis. 26. The autonomous coverage robot of claim 1, wherein the cleaning assembly comprises a roller brush rotatably mounted within the chassis along a front edge of the chassis, anda side brush mounted adjacent to the front edge so as to extend beyond the chassis. 27. The autonomous coverage robot of claim 1, comprising: a proximity sensor along a lateral side of the chassis, wherein the autonomous robot performs a first obstacle following based on the detection of a wall parallel to the lateral side of the chassis by the proximity sensor, and a second obstacle following based on detections of an obstacle by the bump sensor, in which the robot (i) in combination, backs up and turns in place to deactivate the bump sensor and to position to perform an obstacle following arc and (ii) the arc follows about the obstacle so that the lateral side of the chassis is arced about the obstacle.
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