A cleaning device for performing cleaning work on a floor to be cleaned includes: at least one cleaning element by which a cleaning movement for cleaning the floor is performable; a drive device for driving at least the cleaning movement of the at least one cleaning element; and an actuating device by which the cleaning movement of the at least one cleaning element is actuatable. The cleaning movement includes a sweeping and/or wiping movement.

A cleaner includes: a body which forms an outer appearance; and a mop module which is detachably connected to the body. The mop module includes: a pair of spin mops which contacts a floor while rotating clockwise or counterclockwise when viewed from a top; and a module housing which connects the pair of spin mops. The cleaner may travel autonomously due to the rotation of the spin mops.

Provided is a robot including a chassis; a set of wheels coupled to the chassis; a plurality of sensors; a processor; and a tangible, non-transitory, machine readable medium storing instructions that when executed by the processor effectuates operations. The operations include capturing, with an image sensor disposed on the robot, a plurality of images of an environment of the robot as the robot navigates within the environment; identifying, with the processor, an obstacle type of an obstacle captured in an image based on a comparison between features of the obstacle and features of obstacles with different obstacles types stored in a database; and determining, with the processor, an action of the robot based on the obstacle type of the obstacle.

An autonomous traveling floor cleaner is disclosed that improves cleaning efficiency. A floor cleaner may include a suction nozzle that suctions suction matter collected by a rotary brush, an extension nozzle that suctions suction matter collected by an extension brush, and a collection box for collecting, through an inlet, the suction matter suctioned by the nozzles. The floor cleaner may have an elongated profile. The extension nozzle may be switchable between a retracted posture and a lateral cleaning posture. The extension nozzle in the lateral cleaning posture may be pivotable rearward. The extension nozzle in the lateral cleaning posture may have a protruding end in the width direction to be aligned with an end of a turning range of the floor cleaner in the width direction.

An interventional unmanned operation chamber system is provided. The system includes a catheter chamber, which is an area for interventional operation and is provided with a catheter bed therein. The control chamber is arranged close to the catheter chamber, and an observation window is arranged between the catheter chamber and the control chamber. The catheter chamber has intervenient operation robot, master control robot, puncture robot, catheter and guidewire replacing robot that cooperate with each other to work internally. A DSA device and a contrast agent injection device are arranged on the catheter bed. The monitoring device is arranged in the control chamber and is in communication with the robots, the DSA device and the contrast agent injection device, and is used for displaying information of each device and the robot, synchronously updating in real time and supervising by a doctor. The controller is arranged in the control chamber.

Disclosed is a cleaner. The cleaner includes a cleaner body, a suction nozzle configured to suck dust on a floor surface, and a suction hose configured to transfer the dust, transferred from the suction nozzle, to the cleaner body. The cleaner body includes a driving driver or motor moving the cleaner body, a depth sensor configured to obtain image information about an object near the cleaner body, and a processor configured to extract a foot sole region of a person, based on the obtained image information, obtain a moving point of the cleaner body, based on the extracted foot sole region, and control the driving driver to move the cleaner body to the obtained moving point.

The disclosure provides a robotic tool. The robotic tool includes a body (1), an upper cover (2) and a connecting device (3). The connecting device (3) includes a connecting seat fixed on the upper cover and a connecting rod (30) fixed on the body. The connecting seat includes a locking component (32), and the locking component is provided with a plurality of elastic connecting walls (323), and the elastic connecting walls (323) jointly define a sunken cavity (322) to house a connecting head of the connecting rod. When the locking component (32) is in a release position, the elastic connecting walls can be deformed outward to allow the connecting head to be removed from the sunken cavity. When the locking component is in a locking position, the elastic connecting walls are restricted from deforming outwards to keep the connecting head in the sunken cavity (322).

The present disclosure relates to a cleaning assembly and a smart cleaning device. The cleaning assembly is capable of being mounted on a machine body of a smart cleaning device and includes a connecting plate and a soft cleaning body, wherein the connecting plate and the soft cleaning body are detachably connected through a slide assembly, the slide assembly includes a mounting groove and a guide bar which are mutually matched, the mounting groove is provided on one of the connecting plate and the soft cleaning body, and the guide bar is disposed on the other one of the connecting plate and the soft cleaning body.

The present disclosure relates to a sealing structure and a smart cleaning device. The sealing structure is configured to seal an infrared wall-following module of the smart cleaning device. The sealing structure includes a housing and a lens. The housing is connected to a side of the infrared wall-following module facing a protective shell of the smart cleaning device. The lens is connected to the housing, and the lens covers a side surface of the housing facing the protective shell. The lens includes an arc-shaped panel and a connecting plate that is arranged on an edge of the arc-shaped panel and that extends toward the infrared wall-following module.

A floor mopping system (3) for an autonomous cleaning apparatus (1)65), comprising a mop roller assembly (5) including a mop roller (9) and a drive mechanism (19) for rotatably driving the mop roller about a longitudinal axis thereof, wherein the mop roller assembly is supported on a suspension assembly (63) comprising an adaptive suspension mechanism (65) for providing at least 3 degrees of movement for the mop roller assembly.