This application relates to flotation devices generally, and particularly to inflatable flotation devices configured for use by an infant to support the infant at least partially above the water and to at least partially retain the infant therein. In some embodiments, an apparatus is a flotation member having an inner perimeter, a top portion and a bottom portion. The flotation member has a first height between its bottom portion and its top portion at a first location of the flotation member. The flotation member has a second height between the top portion and the bottom portion at a second location of the flotation member, the second height different from the first height. The flotation member includes a support member at least partially disposed within the inner perimeter of the flotation member. The support member has a first portion coupled to the top portion of the flotation member at the first location. The support member has a second portion coupled to the top portion of the flotation member at the second location. The support member has a third portion between the first portion and the second portion, and the third portion is coupled to the bottom portion of the flotation member at a third location different from the first location of the flotation member and the second location of the flotation member.

The present application provides a control method and system, and mobile robot using the same. The mobile robot comprises: a storage device, configured to store a simultaneous localization and mapping application and a behavior control application; an image acquisition device, configured to acquire images of an operating environment; a processing device, configured to control the image acquisition device to capture pictures in order to acquire an image containing the ground, and invoke the simultaneous localization and mapping application and the behavior control application to control the behaviors of the mobile robot when identified that the image contains flexible obstacle; and a movement system, configured to drive the mobile robot to move based on a control instruction output by the processing device. In the present application, the flexible obstacle can be detected effectively, and the behaviors of the mobile robot can be controlled correspondingly based on detection results.

The present invention discloses a robot, including: a receive module configured to receive image signal and/or voice signal; an AI module configured to determine use's intention based on the image signal and/or voice signal; a sensor module configured to capture location information that indicates distances from a portion of the robot to an obstacle and a ground surface; a processor module configured to draw a room map of the room in which the robot is located based on the user's intention, and perform positioning, navigation, and path planning according to the room map; a control module configured to send a control signal to control movement of the robot in the room along the a path; and a motion module configured to control operation of a motor to drive the robot to perform the use's intention. In the present invention, the robot and control method thereof can provide home interaction service.

An electrical and hydraulic coupling device for a system for supplying or distributing liquid to be sprayed onto a window of a vehicle. The device includes at least one tube and at least one first electrically conductive cable. The tube is delimited by a wall in which at least two liquid circulation ducts are formed and in which a heating element is embedded. The wall includes at least one recess that opens towards the outside of the tube and in which is housed all or part of the cable.

A window washer's bucket includes a proximate section open at a top end thereof, a rear panel, a front panel, a pair of opposing side panels, a bottom panel, and at least one divider for defining a plurality of compartments each configured for holding a squeegee. A distal section of the bucket has a front panel, a rear panel, a pair of opposing side panels, and a bottom panel. The distal section is fixed to the front panel of the proximate section and is configured for holding the mop and the cleaning solution therein. The rear panel includes a belt attachment mechanism for connecting with a strap that attaches to a belt worn by the person, the strap including a top loop configured for attachment with the belt, and a length adjustment buckle for adjusting the height of the bucket while worn by the person.

A system for internal air blasting of an enclosed space includes a ground vehicle, an arm supported by the ground vehicle, and a blasting nozzle provided at the end of the arm. The blasting nozzle being configured to direct blast media to a desired surface of the enclosed space to be treated by the arm. A method of internal air blasting an enclosed space is further disclosed.

A system for internal air blasting of an enclosed space includes a ground vehicle, an arm supported by the ground vehicle, and a blasting nozzle provided at the end of the arm. The blasting nozzle being configured to direct blast media to a desired surface of the enclosed space to be treated by the arm. A method of internal air blasting an enclosed space is further disclosed.

This application relates to inflatable flotation devices that support an infant, and having first, second and third inflatable members. The first member has an outer and an inner perimeter and a first and second diameters at first and second end portions. The second member is at least partially within the inner perimeter of the first member. At least a portion of the upper surface of the second member is recessed with respect to an upper surface of the first member. The third member has an inner perimeter disposed about at least a portion of the outer perimeter of the first member. The third member has a maximum height, when inflated, that is less than the maximum height of the first member, at least a portion of the inner perimeter of the third member being spaced apart from the outer perimeter of the first member.

This application relates to inflatable flotation devices that support an infant, and having first, second and third inflatable members. The first member has an outer and an inner perimeter and a first and second diameters at first and second end portions. The second member is at least partially within the inner perimeter of the first member. At least a portion of the upper surface of the second member is recessed with respect to an upper surface of the first member. The third member has an inner perimeter disposed about at least a portion of the outer perimeter of the first member. The third member has a maximum height, when inflated, that is less than the maximum height of the first member, at least a portion of the inner perimeter of the third member being spaced apart from the outer perimeter of the first member.

A method of planning a cleaning route for a cleaning robot: firstly, starting from an original point based on maps of grids, cleaning grid zones formed by the grids one by one until an entire region is cleaned, and then establishing a map of the entire region; secondly, searching the map of the entire region to find out uncleaned areas missed from cleaning, and then cleaning the uncleaned areas; thirdly, cleaning peripheral areas of the entire region based on the map of the entire region; and lastly, returning to the original point. A chip is also provided which stores procedures for controlling the cleaning robot to implement the method of planning a cleaning route.