MOBILE CLEANING ROBOT WITH VARIABLE CLEANING FEATURES

Organization Name

iRobot Corporation

Inventor(s)

Eric J. Burbank of Lynnfield MA (US)

Christopher Mehegan of Waltham MA (US)

Jason Lemieux of Derry NH (US)

MOBILE CLEANING ROBOT WITH VARIABLE CLEANING FEATURES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240008704 titled 'MOBILE CLEANING ROBOT WITH VARIABLE CLEANING FEATURES

Simplified Explanation

The abstract describes a mobile cleaning robot that has a movable body within an environment and includes a suction duct. The cleaning assembly is connected to the body and, together with the floor surface of the environment, defines a debris port connected to the suction duct. The cleaning assembly can engage with the surface of the environment to direct debris through the debris port, and it includes an adjustable guide to alter suction through the debris port.

• The mobile cleaning robot has a movable body and a suction duct.
• The cleaning assembly is connected to the body and defines a debris port connected to the suction duct.
• The cleaning assembly can engage with the surface of the environment to direct debris through the debris port.
• The cleaning assembly includes an adjustable guide to alter suction through the debris port.

Potential applications of this technology:

• Household cleaning: The mobile cleaning robot can be used to clean floors and surfaces in homes, reducing the need for manual cleaning.
• Commercial cleaning: The robot can be utilized in commercial spaces such as offices, hotels, and restaurants to maintain cleanliness.
• Industrial cleaning: The technology can be applied in industrial settings to clean floors and remove debris efficiently.

Problems solved by this technology:

• Labor-intensive cleaning: The mobile cleaning robot reduces the need for manual labor in cleaning tasks, saving time and effort.
• Improved cleaning efficiency: The adjustable guide allows for altering suction, enabling effective debris removal from different surfaces.
• Accessibility: The robot can reach and clean areas that may be difficult for humans to access, such as under furniture or in tight spaces.

Benefits of this technology:

• Time-saving: The mobile cleaning robot can clean autonomously, freeing up time for other tasks.
• Cost-effective: By reducing the need for manual labor, the technology can lead to cost savings in cleaning operations.
• Improved cleanliness: The robot's ability to direct debris through the debris port and alter suction ensures thorough cleaning of surfaces.

Original Abstract Submitted

a mobile cleaning robot can include a body movable within an environment and can define a suction duct. the cleaning assembly can be connected to the body and can be configured to at least partially define, together with a floor surface of the environment, a debris port connected to the suction duct. the cleaning assembly can be engageable with a surface of the environment to direct debris through the debris port, and the cleaning assembly can include a guide adjustable to alter suction through the debris port.